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107 results on '"Mielenz, D."'

1. Neue Einblicke in die Funktion des Knochenmarks

Author

Schett, G., Bozec, A., Bekeredjian-Ding, I., Chang, H.-D., David, J.-P., Dörner, T., Grässel, S., Gunzer, M., Manz, R., Mei, H., Mielenz, D., Müller-Ladner, U., Neumann, E., Radbruch, A., Richter, W., and Straub, R. H.

Published
2018
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2. Guidelines for the use of flow cytometry and cell sorting in immunological studies (third edition)

Author

Cossarizza, A, Chang, H, Radbruch, A, Abrignani, S, Addo, R, Akdis, M, Andra, I, Andreata, F, Annunziato, F, Arranz, E, Bacher, P, Bari, S, Barnaba, V, Barros-Martins, J, Baumjohann, D, Beccaria, C, Bernardo, D, Boardman, D, Borger, J, Bottcher, C, Brockmann, L, Burns, M, Busch, D, Cameron, G, Cammarata, I, Cassotta, A, Chang, Y, Chirdo, F, Christakou, E, Cicin-Sain, L, Cook, L, Corbett, A, Cornelis, R, Cosmi, L, Davey, M, De Biasi, S, De Simone, G, del Zotto, G, Delacher, M, Di Rosa, F, Santo, J, Diefenbach, A, Dong, J, Dorner, T, Dress, R, Dutertre, C, Eckle, S, Eede, P, Evrard, M, Falk, C, Feuerer, M, Fillatreau, S, Fiz-Lopez, A, Follo, M, Foulds, G, Frobel, J, Gagliani, N, Galletti, G, Gangaev, A, Garbi, N, Garrote, J, Geginat, J, Gherardin, N, Gibellini, L, Ginhoux, F, Godfrey, D, Gruarin, P, Haftmann, C, Hansmann, L, Harpur, C, Hayday, A, Heine, G, Hernandez, D, Herrmann, M, Hoelsken, O, Huang, Q, Huber, S, Huber, J, Huehn, J, Hundemer, M, Hwang, W, Iannacone, M, Ivison, S, Jack, H, Jani, P, Keller, B, Kessler, N, Ketelaars, S, Knop, L, Knopf, J, Koay, H, Kobow, K, Kriegsmann, K, Kristyanto, H, Krueger, A, Kuehne, J, Kunze-Schumacher, H, Kvistborg, P, Kwok, I, Latorre, D, Lenz, D, Levings, M, Lino, A, Liotta, F, Long, H, Lugli, E, Macdonald, K, Maggi, L, Maini, M, Mair, F, Manta, C, Manz, R, Mashreghi, M, Mazzoni, A, Mccluskey, J, Mei, H, Melchers, F, Melzer, S, Mielenz, D, Monin, L, Moretta, L, Multhoff, G, Munoz, L, Munoz-Ruiz, M, Muscate, F, Natalini, A, Neumann, K, Ng, L, Niedobitek, A, Niemz, J, Almeida, L, Notarbartolo, S, Ostendorf, L, Pallett, L, Patel, A, Percin, G, Peruzzi, G, Pinti, M, Pockley, A, Pracht, K, Prinz, I, Pujol-Autonell, I, Pulvirenti, N, Quatrini, L, Quinn, K, Radbruch, H, Rhys, H, Rodrigo, M, Romagnani, C, Saggau, C, Sakaguchi, S, Sallusto, F, Sanderink, L, Sandrock, I, Schauer, C, Scheffold, A, Scherer, H, Schiemann, M, Schildberg, F, Schober, K, Schoen, J, Schuh, W, Schuler, T, Schulz, A, Schulz, S, Schulze, J, Simonetti, S, Singh, J, Sitnik, K, Stark, R, Starossom, S, Stehle, C, Szelinski, F, Tan, L, Tarnok, A, Tornack, J, Tree, T, van Beek, J, van de Veen, W, van Gisbergen, K, Vasco, C, Verheyden, N, von Borstel, A, Ward-Hartstonge, K, Warnatz, K, Waskow, C, Wiedemann, A, Wilharm, A, Wing, J, Wirz, O, Wittner, J, Yang, J, Cossarizza A., Chang H. -D., Radbruch A., Abrignani S., Addo R., Akdis M., Andra I., Andreata F., Annunziato F., Arranz E., Bacher P., Bari S., Barnaba V., Barros-Martins J., Baumjohann D., Beccaria C. G., Bernardo D., Boardman D. A., Borger J., Bottcher C., Brockmann L., Burns M., Busch D. H., Cameron G., Cammarata I., Cassotta A., Chang Y., Chirdo F. G., Christakou E., Cicin-Sain L., Cook L., Corbett A. J., Cornelis R., Cosmi L., Davey M. S., De Biasi S., De Simone G., del Zotto G., Delacher M., Di Rosa F., Santo J. D., Diefenbach A., Dong J., Dorner T., Dress R. J., Dutertre C. -A., Eckle S. B. G., Eede P., Evrard M., Falk C. S., Feuerer M., Fillatreau S., Fiz-Lopez A., Follo M., Foulds G. A., Frobel J., Gagliani N., Galletti G., Gangaev A., Garbi N., Garrote J. A., Geginat J., Gherardin N. A., Gibellini L., Ginhoux F., Godfrey D. I., Gruarin P., Haftmann C., Hansmann L., Harpur C. M., Hayday A. C., Heine G., Hernandez D. C., Herrmann M., Hoelsken O., Huang Q., Huber S., Huber J. E., Huehn J., Hundemer M., Hwang W. Y. K., Iannacone M., Ivison S. M., Jack H. -M., Jani P. K., Keller B., Kessler N., Ketelaars S., Knop L., Knopf J., Koay H. -F., Kobow K., Kriegsmann K., Kristyanto H., Krueger A., Kuehne J. F., Kunze-Schumacher H., Kvistborg P., Kwok I., Latorre D., Lenz D., Levings M. K., Lino A. C., Liotta F., Long H. M., Lugli E., MacDonald K. N., Maggi L., Maini M. K., Mair F., Manta C., Manz R. A., Mashreghi M. -F., Mazzoni A., McCluskey J., Mei H. E., Melchers F., Melzer S., Mielenz D., Monin L., Moretta L., Multhoff G., Munoz L. E., Munoz-Ruiz M., Muscate F., Natalini A., Neumann K., Ng L. G., Niedobitek A., Niemz J., Almeida L. N., Notarbartolo S., Ostendorf L., Pallett L. J., Patel A. A., Percin G. I., Peruzzi G., Pinti M., Pockley A. G., Pracht K., Prinz I., Pujol-Autonell I., Pulvirenti N., Quatrini L., Quinn K. M., Radbruch H., Rhys H., Rodrigo M. B., Romagnani C., Saggau C., Sakaguchi S., Sallusto F., Sanderink L., Sandrock I., Schauer C., Scheffold A., Scherer H. U., Schiemann M., Schildberg F. A., Schober K., Schoen J., Schuh W., Schuler T., Schulz A. R., Schulz S., Schulze J., Simonetti S., Singh J., Sitnik K. M., Stark R., Starossom S., Stehle C., Szelinski F., Tan L., Tarnok A., Tornack J., Tree T. I. M., van Beek J. J. P., van de Veen W., van Gisbergen K., Vasco C., Verheyden N. A., von Borstel A., Ward-Hartstonge K. A., Warnatz K., Waskow C., Wiedemann A., Wilharm A., Wing J., Wirz O., Wittner J., Yang J. H. M., Yang J., Cossarizza, A, Chang, H, Radbruch, A, Abrignani, S, Addo, R, Akdis, M, Andra, I, Andreata, F, Annunziato, F, Arranz, E, Bacher, P, Bari, S, Barnaba, V, Barros-Martins, J, Baumjohann, D, Beccaria, C, Bernardo, D, Boardman, D, Borger, J, Bottcher, C, Brockmann, L, Burns, M, Busch, D, Cameron, G, Cammarata, I, Cassotta, A, Chang, Y, Chirdo, F, Christakou, E, Cicin-Sain, L, Cook, L, Corbett, A, Cornelis, R, Cosmi, L, Davey, M, De Biasi, S, De Simone, G, del Zotto, G, Delacher, M, Di Rosa, F, Santo, J, Diefenbach, A, Dong, J, Dorner, T, Dress, R, Dutertre, C, Eckle, S, Eede, P, Evrard, M, Falk, C, Feuerer, M, Fillatreau, S, Fiz-Lopez, A, Follo, M, Foulds, G, Frobel, J, Gagliani, N, Galletti, G, Gangaev, A, Garbi, N, Garrote, J, Geginat, J, Gherardin, N, Gibellini, L, Ginhoux, F, Godfrey, D, Gruarin, P, Haftmann, C, Hansmann, L, Harpur, C, Hayday, A, Heine, G, Hernandez, D, Herrmann, M, Hoelsken, O, Huang, Q, Huber, S, Huber, J, Huehn, J, Hundemer, M, Hwang, W, Iannacone, M, Ivison, S, Jack, H, Jani, P, Keller, B, Kessler, N, Ketelaars, S, Knop, L, Knopf, J, Koay, H, Kobow, K, Kriegsmann, K, Kristyanto, H, Krueger, A, Kuehne, J, Kunze-Schumacher, H, Kvistborg, P, Kwok, I, Latorre, D, Lenz, D, Levings, M, Lino, A, Liotta, F, Long, H, Lugli, E, Macdonald, K, Maggi, L, Maini, M, Mair, F, Manta, C, Manz, R, Mashreghi, M, Mazzoni, A, Mccluskey, J, Mei, H, Melchers, F, Melzer, S, Mielenz, D, Monin, L, Moretta, L, Multhoff, G, Munoz, L, Munoz-Ruiz, M, Muscate, F, Natalini, A, Neumann, K, Ng, L, Niedobitek, A, Niemz, J, Almeida, L, Notarbartolo, S, Ostendorf, L, Pallett, L, Patel, A, Percin, G, Peruzzi, G, Pinti, M, Pockley, A, Pracht, K, Prinz, I, Pujol-Autonell, I, Pulvirenti, N, Quatrini, L, Quinn, K, Radbruch, H, Rhys, H, Rodrigo, M, Romagnani, C, Saggau, C, Sakaguchi, S, Sallusto, F, Sanderink, L, Sandrock, I, Schauer, C, Scheffold, A, Scherer, H, Schiemann, M, Schildberg, F, Schober, K, Schoen, J, Schuh, W, Schuler, T, Schulz, A, Schulz, S, Schulze, J, Simonetti, S, Singh, J, Sitnik, K, Stark, R, Starossom, S, Stehle, C, Szelinski, F, Tan, L, Tarnok, A, Tornack, J, Tree, T, van Beek, J, van de Veen, W, van Gisbergen, K, Vasco, C, Verheyden, N, von Borstel, A, Ward-Hartstonge, K, Warnatz, K, Waskow, C, Wiedemann, A, Wilharm, A, Wing, J, Wirz, O, Wittner, J, Yang, J, Cossarizza A., Chang H. -D., Radbruch A., Abrignani S., Addo R., Akdis M., Andra I., Andreata F., Annunziato F., Arranz E., Bacher P., Bari S., Barnaba V., Barros-Martins J., Baumjohann D., Beccaria C. G., Bernardo D., Boardman D. A., Borger J., Bottcher C., Brockmann L., Burns M., Busch D. H., Cameron G., Cammarata I., Cassotta A., Chang Y., Chirdo F. G., Christakou E., Cicin-Sain L., Cook L., Corbett A. J., Cornelis R., Cosmi L., Davey M. S., De Biasi S., De Simone G., del Zotto G., Delacher M., Di Rosa F., Santo J. D., Diefenbach A., Dong J., Dorner T., Dress R. J., Dutertre C. -A., Eckle S. B. G., Eede P., Evrard M., Falk C. S., Feuerer M., Fillatreau S., Fiz-Lopez A., Follo M., Foulds G. A., Frobel J., Gagliani N., Galletti G., Gangaev A., Garbi N., Garrote J. A., Geginat J., Gherardin N. A., Gibellini L., Ginhoux F., Godfrey D. I., Gruarin P., Haftmann C., Hansmann L., Harpur C. M., Hayday A. C., Heine G., Hernandez D. C., Herrmann M., Hoelsken O., Huang Q., Huber S., Huber J. E., Huehn J., Hundemer M., Hwang W. Y. K., Iannacone M., Ivison S. M., Jack H. -M., Jani P. K., Keller B., Kessler N., Ketelaars S., Knop L., Knopf J., Koay H. -F., Kobow K., Kriegsmann K., Kristyanto H., Krueger A., Kuehne J. F., Kunze-Schumacher H., Kvistborg P., Kwok I., Latorre D., Lenz D., Levings M. K., Lino A. C., Liotta F., Long H. M., Lugli E., MacDonald K. N., Maggi L., Maini M. K., Mair F., Manta C., Manz R. A., Mashreghi M. -F., Mazzoni A., McCluskey J., Mei H. E., Melchers F., Melzer S., Mielenz D., Monin L., Moretta L., Multhoff G., Munoz L. E., Munoz-Ruiz M., Muscate F., Natalini A., Neumann K., Ng L. G., Niedobitek A., Niemz J., Almeida L. N., Notarbartolo S., Ostendorf L., Pallett L. J., Patel A. A., Percin G. I., Peruzzi G., Pinti M., Pockley A. G., Pracht K., Prinz I., Pujol-Autonell I., Pulvirenti N., Quatrini L., Quinn K. M., Radbruch H., Rhys H., Rodrigo M. B., Romagnani C., Saggau C., Sakaguchi S., Sallusto F., Sanderink L., Sandrock I., Schauer C., Scheffold A., Scherer H. U., Schiemann M., Schildberg F. A., Schober K., Schoen J., Schuh W., Schuler T., Schulz A. R., Schulz S., Schulze J., Simonetti S., Singh J., Sitnik K. M., Stark R., Starossom S., Stehle C., Szelinski F., Tan L., Tarnok A., Tornack J., Tree T. I. M., van Beek J. J. P., van de Veen W., van Gisbergen K., Vasco C., Verheyden N. A., von Borstel A., Ward-Hartstonge K. A., Warnatz K., Waskow C., Wiedemann A., Wilharm A., Wing J., Wirz O., Wittner J., Yang J. H. M., and Yang J.

Abstract

The third edition of Flow Cytometry Guidelines provides the key aspects to consider when performing flow cytometry experiments and includes comprehensive sections describing phenotypes and functional assays of all major human and murine immune cell subsets. Notably, the Guidelines contain helpful tables highlighting phenotypes and key differences between human and murine cells. Another useful feature of this edition is the flow cytometry analysis of clinical samples with examples of flow cytometry applications in the context of autoimmune diseases, cancers as well as acute and chronic infectious diseases. Furthermore, there are sections detailing tips, tricks and pitfalls to avoid. All sections are written and peer-reviewed by leading flow cytometry experts and immunologists, making this edition an essential and state-of-the-art handbook for basic and clinical researchers.

Published
2021

5. THU0053 CONTRIBUTION OF DEFECTIVE NON-APOPTOTIC FAS SIGNALING TO IMMUNE DYSREGULATION IN AUTOIMMUNE LYMPHOPROLIFERATIVE SYNDROME (ALPS)

Author

Staniek, J., primary, Kalina, T., additional, Andrieux, G., additional, Boerries, M., additional, Janowska, I., additional, Fuentes, M., additional, Bakardjieva, M., additional, Raabe, J., additional, Neumann, J., additional, Stuchly, J., additional, Benes, V., additional, Garcia, R., additional, Garcia, J., additional, Diez, P., additional, Catala, A., additional, Neven, B., additional, Neth, O., additional, Olbrich, P., additional, Voll, R., additional, Alsina, L., additional, Allende, L., additional, Gonzales-Granado, L., additional, Thiel, J., additional, Venhoff, N., additional, Lorenzetti, R., additional, Unger, S., additional, Seidl, M., additional, Mielenz, D., additional, Schneider, P., additional, Ehl, S., additional, Rensing-Ehl, A., additional, Smulski, C., additional, and Rizzi, M., additional

Published
2020
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6. Guidelines for the use of flow cytometry and cell sorting in immunological studies (second edition)

Author

Cossarizza, A, Chang, H-D, Radbruch, A, Acs, A, Adam, D, Adam-Klages, S, Agace, WW, Aghaeepour, N, Akdis, M, Allez, M, Almeida, LN, Alvisi, G, Anderson, G, Andrae, I, Annunziato, F, Anselmo, A, Bacher, P, Baldari, CT, Bari, S, Barnaba, V, Barros-Martins, J, Battistini, L, Bauer, W, Baumgart, S, Baumgarth, N, Baumjohann, D, Baying, B, Bebawy, M, Becher, B, Beisker, W, Benes, V, Beyaert, R, Blanco, A, Boardman, DA, Bogdan, C, Borger, JG, Borsellino, G, Boulais, PE, Bradford, JA, Brenner, D, Brinkman, RR, Brooks, AES, Busch, DH, Buescher, M, Bushnell, TP, Calzetti, F, Cameron, G, Cammarata, I, Cao, X, Cardell, SL, Casola, S, Cassatella, MA, Cavani, A, Celada, A, Chatenoud, L, Chattopadhyay, PK, Chow, S, Christakou, E, Cicin-Sain, L, Clerici, M, Colombo, FS, Cook, L, Cooke, A, Cooper, AM, Corbett, AJ, Cosma, A, Cosmi, L, Coulie, PG, Cumano, A, Cvetkovic, L, Dang, VD, Dang-Heine, C, Davey, MS, Davies, D, De Biasi, S, Del Zotto, G, Dela Cruz, GV, Delacher, M, Della Bella, S, Dellabona, P, Deniz, G, Dessing, M, Di Santo, JP, Diefenbach, A, Dieli, F, Dolf, A, Doerner, T, Dress, RJ, Dudziak, D, Dustin, M, Dutertre, C-A, Ebner, F, Eckle, SBG, Edinger, M, Eede, P, Ehrhardt, GRA, Eich, M, Engel, P, Engelhardt, B, Erdei, A, Esser, C, Everts, B, Evrard, M, Falk, CS, Fehniger, TA, Felipo-Benavent, M, Ferry, H, Feuerer, M, Filby, A, Filkor, K, Fillatreau, S, Follo, M, Foerster, I, Foster, J, Foulds, GA, Frehse, B, Frenette, PS, Frischbutter, S, Fritzsche, W, Galbraith, DW, Gangaev, A, Garbi, N, Gaudilliere, B, Gazzinelli, RT, Geginat, J, Gerner, W, Gherardin, NA, Ghoreschi, K, Gibellini, L, Ginhoux, F, Goda, K, Godfrey, DI, Goettlinger, C, Gonzalez-Navajas, JM, Goodyear, CS, Gori, A, Grogan, JL, Grummitt, D, Gruetzkau, A, Haftmann, C, Hahn, J, Hammad, H, Haemmerling, G, Hansmann, L, Hansson, G, Harpur, CM, Hartmann, S, Hauser, A, Hauser, AE, Haviland, DL, Hedley, D, Hernandez, DC, Herrera, G, Herrmann, M, Hess, C, Hoefer, T, Hoffmann, P, Hogquist, K, Holland, T, Hollt, T, Holmdahl, R, Hombrink, P, Houston, JP, Hoyer, BF, Huang, B, Huang, F-P, Huber, JE, Huehn, J, Hundemer, M, Hunter, CA, Hwang, WYK, Iannone, A, Ingelfinger, F, Ivison, SM, Jaeck, H-M, Jani, PK, Javega, B, Jonjic, S, Kaiser, T, Kalina, T, Kamradt, T, Kaufmann, SHE, Keller, B, Ketelaars, SLC, Khalilnezhad, A, Khan, S, Kisielow, J, Klenerman, P, Knopf, J, Koay, H-F, Kobow, K, Kolls, JK, Kong, WT, Kopf, M, Korn, T, Kriegsmann, K, Kristyanto, H, Kroneis, T, Krueger, A, Kuehne, J, Kukat, C, Kunkel, D, Kunze-Schumacher, H, Kurosaki, T, Kurts, C, Kvistborg, P, Kwok, I, Landry, J, Lantz, O, Lanuti, P, LaRosa, F, Lehuen, A, LeibundGut-Landmann, S, Leipold, MD, Leung, LYT, Levings, MK, Lino, AC, Liotta, F, Litwin, V, Liu, Y, Ljunggren, H-G, Lohoff, M, Lombardi, G, Lopez, L, Lopez-Botet, M, Lovett-Racke, AE, Lubberts, E, Luche, H, Ludewig, B, Lugli, E, Lunemann, S, Maecker, HT, Maggi, L, Maguire, O, Mair, F, Mair, KH, Mantovani, A, Manz, RA, Marshall, AJ, Martinez-Romero, A, Martrus, G, Marventano, I, Maslinski, W, Matarese, G, Mattioli, AV, Maueroder, C, Mazzoni, A, McCluskey, J, McGrath, M, McGuire, HM, McInnes, IB, Mei, HE, Melchers, F, Melzer, S, Mielenz, D, Miller, SD, Mills, KHG, Minderman, H, Mjosberg, J, Moore, J, Moran, B, Moretta, L, Mosmann, TR, Mueller, S, Multhoff, G, Munoz, LE, Munz, C, Nakayama, T, Nasi, M, Neumann, K, Ng, LG, Niedobitek, A, Nourshargh, S, Nunez, G, O'Connor, J-E, Ochel, A, Oja, A, Ordonez, D, Orfao, A, Orlowski-Oliver, E, Ouyang, W, Oxenius, A, Palankar, R, Panse, I, Pattanapanyasat, K, Paulsen, M, Pavlinic, D, Penter, L, Peterson, P, Peth, C, Petriz, J, Piancone, F, Pickl, WF, Piconese, S, Pinti, M, Pockley, AG, Podolska, MJ, Poon, Z, Pracht, K, Prinz, I, Pucillo, CEM, Quataert, SA, Quatrini, L, Quinn, KM, Radbruch, H, Radstake, TRDJ, Rahmig, S, Rahn, H-P, Rajwa, B, Ravichandran, G, Raz, Y, Rebhahn, JA, Recktenwald, D, Reimer, D, Reis e Sousa, C, Remmerswaal, EBM, Richter, L, Rico, LG, Riddell, A, Rieger, AM, Robinson, JP, Romagnani, C, Rubartelli, A, Ruland, J, Saalmueller, A, Saeys, Y, Saito, T, Sakaguchi, S, Sala-de-Oyanguren, F, Samstag, Y, Sanderson, S, Sandrock, I, Santoni, A, Sanz, RB, Saresella, M, Sautes-Fridman, C, Sawitzki, B, Schadt, L, Scheffold, A, Scherer, HU, Schiemann, M, Schildberg, FA, Schimisky, E, Schlitzer, A, Schlosser, J, Schmid, S, Schmitt, S, Schober, K, Schraivogel, D, Schuh, W, Schueler, T, Schulte, R, Schulz, AR, Schulz, SR, Scotta, C, Scott-Algara, D, Sester, DP, Shankey, TV, Silva-Santos, B, Simon, AK, Sitnik, KM, Sozzani, S, Speiser, DE, Spidlen, J, Stahlberg, A, Stall, AM, Stanley, N, Stark, R, Stehle, C, Steinmetz, T, Stockinger, H, Takahama, Y, Takeda, K, Tan, L, Tarnok, A, Tiegs, G, Toldi, G, Tornack, J, Traggiai, E, Trebak, M, Tree, TIM, Trotter, J, Trowsdale, J, Tsoumakidou, M, Ulrich, H, Urbanczyk, S, van de Veen, W, van den Broek, M, van der Pol, E, Van Gassen, S, Van Isterdael, G, van Lier, RAW, Veldhoen, M, Vento-Asturias, S, Vieira, P, Voehringer, D, Volk, H-D, von Borstel, A, von Volkmann, K, Waisman, A, Walker, RV, Wallace, PK, Wang, SA, Wang, XM, Ward, MD, Ward-Hartstonge, KA, Warnatz, K, Warnes, G, Warth, S, Waskow, C, Watson, JV, Watzl, C, Wegener, L, Weisenburger, T, Wiedemann, A, Wienands, J, Wilharm, A, Wilkinson, RJ, Willimsky, G, Wing, JB, Winkelmann, R, Winkler, TH, Wirz, OF, Wong, A, Wurst, P, Yang, JHM, Yang, J, Yazdanbakhsh, M, Yu, L, Yue, A, Zhang, H, Zhao, Y, Ziegler, SM, Zielinski, C, Zimmermann, J, Zychlinsky, A, Cossarizza, A, Chang, H-D, Radbruch, A, Acs, A, Adam, D, Adam-Klages, S, Agace, WW, Aghaeepour, N, Akdis, M, Allez, M, Almeida, LN, Alvisi, G, Anderson, G, Andrae, I, Annunziato, F, Anselmo, A, Bacher, P, Baldari, CT, Bari, S, Barnaba, V, Barros-Martins, J, Battistini, L, Bauer, W, Baumgart, S, Baumgarth, N, Baumjohann, D, Baying, B, Bebawy, M, Becher, B, Beisker, W, Benes, V, Beyaert, R, Blanco, A, Boardman, DA, Bogdan, C, Borger, JG, Borsellino, G, Boulais, PE, Bradford, JA, Brenner, D, Brinkman, RR, Brooks, AES, Busch, DH, Buescher, M, Bushnell, TP, Calzetti, F, Cameron, G, Cammarata, I, Cao, X, Cardell, SL, Casola, S, Cassatella, MA, Cavani, A, Celada, A, Chatenoud, L, Chattopadhyay, PK, Chow, S, Christakou, E, Cicin-Sain, L, Clerici, M, Colombo, FS, Cook, L, Cooke, A, Cooper, AM, Corbett, AJ, Cosma, A, Cosmi, L, Coulie, PG, Cumano, A, Cvetkovic, L, Dang, VD, Dang-Heine, C, Davey, MS, Davies, D, De Biasi, S, Del Zotto, G, Dela Cruz, GV, Delacher, M, Della Bella, S, Dellabona, P, Deniz, G, Dessing, M, Di Santo, JP, Diefenbach, A, Dieli, F, Dolf, A, Doerner, T, Dress, RJ, Dudziak, D, Dustin, M, Dutertre, C-A, Ebner, F, Eckle, SBG, Edinger, M, Eede, P, Ehrhardt, GRA, Eich, M, Engel, P, Engelhardt, B, Erdei, A, Esser, C, Everts, B, Evrard, M, Falk, CS, Fehniger, TA, Felipo-Benavent, M, Ferry, H, Feuerer, M, Filby, A, Filkor, K, Fillatreau, S, Follo, M, Foerster, I, Foster, J, Foulds, GA, Frehse, B, Frenette, PS, Frischbutter, S, Fritzsche, W, Galbraith, DW, Gangaev, A, Garbi, N, Gaudilliere, B, Gazzinelli, RT, Geginat, J, Gerner, W, Gherardin, NA, Ghoreschi, K, Gibellini, L, Ginhoux, F, Goda, K, Godfrey, DI, Goettlinger, C, Gonzalez-Navajas, JM, Goodyear, CS, Gori, A, Grogan, JL, Grummitt, D, Gruetzkau, A, Haftmann, C, Hahn, J, Hammad, H, Haemmerling, G, Hansmann, L, Hansson, G, Harpur, CM, Hartmann, S, Hauser, A, Hauser, AE, Haviland, DL, Hedley, D, Hernandez, DC, Herrera, G, Herrmann, M, Hess, C, Hoefer, T, Hoffmann, P, Hogquist, K, Holland, T, Hollt, T, Holmdahl, R, Hombrink, P, Houston, JP, Hoyer, BF, Huang, B, Huang, F-P, Huber, JE, Huehn, J, Hundemer, M, Hunter, CA, Hwang, WYK, Iannone, A, Ingelfinger, F, Ivison, SM, Jaeck, H-M, Jani, PK, Javega, B, Jonjic, S, Kaiser, T, Kalina, T, Kamradt, T, Kaufmann, SHE, Keller, B, Ketelaars, SLC, Khalilnezhad, A, Khan, S, Kisielow, J, Klenerman, P, Knopf, J, Koay, H-F, Kobow, K, Kolls, JK, Kong, WT, Kopf, M, Korn, T, Kriegsmann, K, Kristyanto, H, Kroneis, T, Krueger, A, Kuehne, J, Kukat, C, Kunkel, D, Kunze-Schumacher, H, Kurosaki, T, Kurts, C, Kvistborg, P, Kwok, I, Landry, J, Lantz, O, Lanuti, P, LaRosa, F, Lehuen, A, LeibundGut-Landmann, S, Leipold, MD, Leung, LYT, Levings, MK, Lino, AC, Liotta, F, Litwin, V, Liu, Y, Ljunggren, H-G, Lohoff, M, Lombardi, G, Lopez, L, Lopez-Botet, M, Lovett-Racke, AE, Lubberts, E, Luche, H, Ludewig, B, Lugli, E, Lunemann, S, Maecker, HT, Maggi, L, Maguire, O, Mair, F, Mair, KH, Mantovani, A, Manz, RA, Marshall, AJ, Martinez-Romero, A, Martrus, G, Marventano, I, Maslinski, W, Matarese, G, Mattioli, AV, Maueroder, C, Mazzoni, A, McCluskey, J, McGrath, M, McGuire, HM, McInnes, IB, Mei, HE, Melchers, F, Melzer, S, Mielenz, D, Miller, SD, Mills, KHG, Minderman, H, Mjosberg, J, Moore, J, Moran, B, Moretta, L, Mosmann, TR, Mueller, S, Multhoff, G, Munoz, LE, Munz, C, Nakayama, T, Nasi, M, Neumann, K, Ng, LG, Niedobitek, A, Nourshargh, S, Nunez, G, O'Connor, J-E, Ochel, A, Oja, A, Ordonez, D, Orfao, A, Orlowski-Oliver, E, Ouyang, W, Oxenius, A, Palankar, R, Panse, I, Pattanapanyasat, K, Paulsen, M, Pavlinic, D, Penter, L, Peterson, P, Peth, C, Petriz, J, Piancone, F, Pickl, WF, Piconese, S, Pinti, M, Pockley, AG, Podolska, MJ, Poon, Z, Pracht, K, Prinz, I, Pucillo, CEM, Quataert, SA, Quatrini, L, Quinn, KM, Radbruch, H, Radstake, TRDJ, Rahmig, S, Rahn, H-P, Rajwa, B, Ravichandran, G, Raz, Y, Rebhahn, JA, Recktenwald, D, Reimer, D, Reis e Sousa, C, Remmerswaal, EBM, Richter, L, Rico, LG, Riddell, A, Rieger, AM, Robinson, JP, Romagnani, C, Rubartelli, A, Ruland, J, Saalmueller, A, Saeys, Y, Saito, T, Sakaguchi, S, Sala-de-Oyanguren, F, Samstag, Y, Sanderson, S, Sandrock, I, Santoni, A, Sanz, RB, Saresella, M, Sautes-Fridman, C, Sawitzki, B, Schadt, L, Scheffold, A, Scherer, HU, Schiemann, M, Schildberg, FA, Schimisky, E, Schlitzer, A, Schlosser, J, Schmid, S, Schmitt, S, Schober, K, Schraivogel, D, Schuh, W, Schueler, T, Schulte, R, Schulz, AR, Schulz, SR, Scotta, C, Scott-Algara, D, Sester, DP, Shankey, TV, Silva-Santos, B, Simon, AK, Sitnik, KM, Sozzani, S, Speiser, DE, Spidlen, J, Stahlberg, A, Stall, AM, Stanley, N, Stark, R, Stehle, C, Steinmetz, T, Stockinger, H, Takahama, Y, Takeda, K, Tan, L, Tarnok, A, Tiegs, G, Toldi, G, Tornack, J, Traggiai, E, Trebak, M, Tree, TIM, Trotter, J, Trowsdale, J, Tsoumakidou, M, Ulrich, H, Urbanczyk, S, van de Veen, W, van den Broek, M, van der Pol, E, Van Gassen, S, Van Isterdael, G, van Lier, RAW, Veldhoen, M, Vento-Asturias, S, Vieira, P, Voehringer, D, Volk, H-D, von Borstel, A, von Volkmann, K, Waisman, A, Walker, RV, Wallace, PK, Wang, SA, Wang, XM, Ward, MD, Ward-Hartstonge, KA, Warnatz, K, Warnes, G, Warth, S, Waskow, C, Watson, JV, Watzl, C, Wegener, L, Weisenburger, T, Wiedemann, A, Wienands, J, Wilharm, A, Wilkinson, RJ, Willimsky, G, Wing, JB, Winkelmann, R, Winkler, TH, Wirz, OF, Wong, A, Wurst, P, Yang, JHM, Yang, J, Yazdanbakhsh, M, Yu, L, Yue, A, Zhang, H, Zhao, Y, Ziegler, SM, Zielinski, C, Zimmermann, J, and Zychlinsky, A

Abstract

These guidelines are a consensus work of a considerable number of members of the immunology and flow cytometry community. They provide the theory and key practical aspects of flow cytometry enabling immunologists to avoid the common errors that often undermine immunological data. Notably, there are comprehensive sections of all major immune cell types with helpful Tables detailing phenotypes in murine and human cells. The latest flow cytometry techniques and applications are also described, featuring examples of the data that can be generated and, importantly, how the data can be analysed. Furthermore, there are sections detailing tips, tricks and pitfalls to avoid, all written and peer-reviewed by leading experts in the field, making this an essential research companion.

Published
2019

7. Guidelines for the use of flow cytometry and cell sorting in immunological studies

Author

Cossarizza, A. (Andrea), Chang, H.-D. (Hyun-Dong), Radbruch, A. (Andreas), Andrä, I. (Immanuel), Annunziato, F. (Francesco), Bacher, P. (Petra), Barnaba, V. (Vincenzo), Battistini, L. (Luca), Bauer, W.M. (Wolfgang M.), Baumgart, S. (Sabine), Becher, B. (Burkhard), Beisker, W. (Wolfgang), Berek, C. (Claudia), Blanco, A. (Alfonso), Borsellino, G. (Giovanna), Boulais, P.E. (Philip E.), Brinkman, R.R. (Ryan R.), Büscher, M. (Martin), Busch, D.H. (Dirk), Bushnell, T.P. (Timothy P.), Cao, X. (Xuetao), Cavani, A. (Andrea), Chattopadhyay, P.K. (Pratip K.), Cheng, Q. (Qingyu), Chow, S. (Sue), Clerici, M. (Mario), Cooke, A. (Anne), Cosma, A. (Antonio), Cosmi, L. (Lorenzo), Cumano, A. (Ana), Dang, V.D. (Van Duc), Davies, D. (Derek), De Biasi, S. (Sara), Del Zotto, G. (Genny), Della Bella, S. (Silvia), Dellabona, P. (Paolo), Deniz, G. (Gunnur), Dessing, M. (Mark), Diefenbach, A. (Andreas), Santo, J.P. (James) di, Dieli, F. (Francesco), Dolf, A. (Andreas), Donnenberg, V.S. (Vera S.), Dörner, A. (Andrea), Ehrhardt, G.R.A. (Götz R. A.), Endl, E. (Elmar), Engel, P. (Pablo), Engelhardt, B. (Britta), Esser, C. (Charlotte), Everts, B. (Bart), Falk, C.S. (Christine S.), Fehniger, T.A. (Todd A.), Filby, A. (Andrew), Fillatreau, S. (Simon), Follo, M. (Marie), Förster, I. (Irmgard), Foster, J. (John), Foulds, G.A. (Gemma A.), Frenette, P.S. (Paul S.), Galbraith, D. (David), Garbi, N. (Natalio), García-Godoy, M.D. (Maria Dolores), Ghoreschi, K. (Kamran), Gibellini, L. (Lara), Goettlinger, C. (Christoph), Goodyear, C.S. (Carl), Gori, A. (Andrea), Grogan, J.L. (Jane), Gross, M. (Mor), Grützkau, A. (Andreas), Grummitt, D. (Daryl), Hahn, J. (Jonas), Hammer, Q. (Quirin), Hauser, A.E. (Anja E.), Haviland, D.L. (David L.), Hedley, D. (David), Herrera, G. (Guadalupe), Herrmann, M. (Martin), Hiepe, F. (Falk), Holland, T. (Tristan), Hombrink, P. (Pleun), Houston, J.P. (Jessica P.), Hoyer, B.F. (Bimba F.), Huang, B. (Bo), Hunter, C.A. (Christopher A.), Iannone, A. (Anna), Jäck, H.-M. (Hans-Martin), Jávega, B. (Beatriz), Jonjic, S. (Stipan), Juelke, K. (Kerstin), Jung, S. (Steffen), Kaiser, T. (Toralf), Kalina, T. (Tomas), Keller, B. (Baerbel), Khan, S. (Srijit), Kienhöfer, D. (Deborah), Kroneis, T. (Thomas), Kunkel, D. (Désirée), Kurts, C. (Christian), Kvistborg, P. (Pia), Lannigan, J. (Joanne), Lantz, O. (Olivier), Larbi, A. (Anis), LeibundGut-Landmann, S. (Salome), Leipold, M.D. (Michael D.), Levings, M.K., Litwin, V. (Virginia), Liu, Y. (Yanling), Lohoff, M. (Michael), Lombardi, G. (Giovanna), Lopez, L. (Lilly), Lovett-Racke, A. (Amy), Lubberts, E.W. (Erik), Ludewig, B. (Burkhard), Lugli, E. (Enrico), Maecker, H.T. (Holden T.), Martrus, G. (Glòria), Matarese, G. (Giuseppe), Maueröder, C. (Christian), McGrath, M. (Mairi), McInnes, I.B. (Iain), Mei, H.E. (Henrik E.), Melchers, F. (Fritz), Melzer, S. (Susanne), Mielenz, D. (Dirk), Mills, K. (Kingston), Mjösberg, J.M. (Jenny), Moore, J. (Jonni), Moran, B. (Barry), Moretta, A. (Alessandro), Moretta, L. (Lorenzo), Mosmann, T.R. (Tim R.), Müller, S. (Susann), Müller, W. (Werner), Münz, C. (Christian), Multhoff, G. (Gabriele), Munoz, L.E. (Luis Enrique), Murphy, K.M. (Kenneth M.), Nakayama, T. (Toshinori), Nasi, M. (Milena), Neudörfl, C. (Christine), Nolan, J. (John), Nourshargh, S. (Sussan), O'Connor, J.-E. (José-Enrique), Ouyang, W. (Wenjun), Oxenius, A. (Annette), Palankar, R. (Raghav), Panse, I. (Isabel), Peterson, P. (Pärt), Peth, C. (Christian), Petriz, J. (Jordi), Philips, D. (Daisy), Pickl, W. (Winfried), Piconese, S. (Silvia), Pinti, M. (Marcello), Pockley, A.G. (A. Graham), Podolska, M.J. (Malgorzata Justyna), Pucillo, C. (Carlo), Quataert, S.A. (Sally A.), Radstake, T.R.D.J. (Timothy R. D. J.), Rajwa, B. (Bartek), Rebhahn, J.A. (Jonathan A.), Recktenwald, D. (Diether), Remmerswaal, D. (Daniëlle), Rezvani, K. (Katy), Rico, L.G. (Laura G.), Robinson, J.P. (J. Paul), Romagnani, C. (Chiara), Rubartelli, A. (Anna), Ruland, J. (Jürgen), Sakaguchi, S. (Shimon), Sala-de-Oyanguren, F. (Francisco), Samstag, Y. (Yvonne), Sanderson, S. (Sharon), Sawitzki, B. (Birgit), Scheffold, A. (Alexander), Schiemann, M. (Matthias), Schildberg, F. (Frank), Schimisky, E. (Esther), Schmid, S.A. (Stephan A), Schmitt, S. (Steffen), Schober, K. (Kilian), Schüler, T. (Thomas), Schulz, A.R. (Axel Ronald), Schumacher, T.N. (Ton), Scotta, C. (Cristiano), Shankey, T.V. (T. Vincent), Shemer, A. (Anat), Simon, A.-K. (Anna-Katharina), Spidlen, J. (Josef), Stall, A.M. (Alan M.), Stark, R. (Regina), Stehle, C. (Christina), Stein, M. (Merle), Steinmetz, T. (Tobit), Stockinger, H. (Hannes), Takahama, Y. (Yousuke), Tarnok, A. (Attila), Tian, Z. (ZhiGang), Toldi, G. (Gergely), Tornack, J. (Julia), Traggiai, E. (Elisabetta), Trotter, J. (Joe), Ulrich, H. (Henning), van der Braber, M. (Marlous), Van Lier, R.A.W. (Rene A. W.), Veldhoen, M. (Marcello), Vento-Asturias, S. (Salvador), Vieira, P. (Paulo), Voehringer, D. (David), Volk, H.D. (Hans), von Volkmann, K. (Konrad), Waisman, A. (Ari), Walker, R. (Rachael), Ward, M.D. (Michael D.), Warnatz, K. (Klaus), Warth, S. (Sarah), Watson, J.V. (James V.), Watzl, C. (Carsten), Wegener, L. (Leonie), Wiedemann, A. (Annika), Wienands, J. (Jürgen), Willimsky, G. (Gerald), Wing, J. (James), Wurst, P. (Peter), Yu, L. (Liping), Yue, A. (Alice), Zhang, Q. (Qianjun), Zhao, Y. (Yi), Ziegler, S. (Susanne), Zimmermann, J. (Jakob), Cossarizza, A. (Andrea), Chang, H.-D. (Hyun-Dong), Radbruch, A. (Andreas), Andrä, I. (Immanuel), Annunziato, F. (Francesco), Bacher, P. (Petra), Barnaba, V. (Vincenzo), Battistini, L. (Luca), Bauer, W.M. (Wolfgang M.), Baumgart, S. (Sabine), Becher, B. (Burkhard), Beisker, W. (Wolfgang), Berek, C. (Claudia), Blanco, A. (Alfonso), Borsellino, G. (Giovanna), Boulais, P.E. (Philip E.), Brinkman, R.R. (Ryan R.), Büscher, M. (Martin), Busch, D.H. (Dirk), Bushnell, T.P. (Timothy P.), Cao, X. (Xuetao), Cavani, A. (Andrea), Chattopadhyay, P.K. (Pratip K.), Cheng, Q. (Qingyu), Chow, S. (Sue), Clerici, M. (Mario), Cooke, A. (Anne), Cosma, A. (Antonio), Cosmi, L. (Lorenzo), Cumano, A. (Ana), Dang, V.D. (Van Duc), Davies, D. (Derek), De Biasi, S. (Sara), Del Zotto, G. (Genny), Della Bella, S. (Silvia), Dellabona, P. (Paolo), Deniz, G. (Gunnur), Dessing, M. (Mark), Diefenbach, A. (Andreas), Santo, J.P. (James) di, Dieli, F. (Francesco), Dolf, A. (Andreas), Donnenberg, V.S. (Vera S.), Dörner, A. (Andrea), Ehrhardt, G.R.A. (Götz R. A.), Endl, E. (Elmar), Engel, P. (Pablo), Engelhardt, B. (Britta), Esser, C. (Charlotte), Everts, B. (Bart), Falk, C.S. (Christine S.), Fehniger, T.A. (Todd A.), Filby, A. (Andrew), Fillatreau, S. (Simon), Follo, M. (Marie), Förster, I. (Irmgard), Foster, J. (John), Foulds, G.A. (Gemma A.), Frenette, P.S. (Paul S.), Galbraith, D. (David), Garbi, N. (Natalio), García-Godoy, M.D. (Maria Dolores), Ghoreschi, K. (Kamran), Gibellini, L. (Lara), Goettlinger, C. (Christoph), Goodyear, C.S. (Carl), Gori, A. (Andrea), Grogan, J.L. (Jane), Gross, M. (Mor), Grützkau, A. (Andreas), Grummitt, D. (Daryl), Hahn, J. (Jonas), Hammer, Q. (Quirin), Hauser, A.E. (Anja E.), Haviland, D.L. (David L.), Hedley, D. (David), Herrera, G. (Guadalupe), Herrmann, M. (Martin), Hiepe, F. (Falk), Holland, T. (Tristan), Hombrink, P. (Pleun), Houston, J.P. (Jessica P.), Hoyer, B.F. (Bimba F.), Huang, B. (Bo), Hunter, C.A. (Christopher A.), Iannone, A. (Anna), Jäck, H.-M. (Hans-Martin), Jávega, B. (Beatriz), Jonjic, S. (Stipan), Juelke, K. (Kerstin), Jung, S. (Steffen), Kaiser, T. (Toralf), Kalina, T. (Tomas), Keller, B. (Baerbel), Khan, S. (Srijit), Kienhöfer, D. (Deborah), Kroneis, T. (Thomas), Kunkel, D. (Désirée), Kurts, C. (Christian), Kvistborg, P. (Pia), Lannigan, J. (Joanne), Lantz, O. (Olivier), Larbi, A. (Anis), LeibundGut-Landmann, S. (Salome), Leipold, M.D. (Michael D.), Levings, M.K., Litwin, V. (Virginia), Liu, Y. (Yanling), Lohoff, M. (Michael), Lombardi, G. (Giovanna), Lopez, L. (Lilly), Lovett-Racke, A. (Amy), Lubberts, E.W. (Erik), Ludewig, B. (Burkhard), Lugli, E. (Enrico), Maecker, H.T. (Holden T.), Martrus, G. (Glòria), Matarese, G. (Giuseppe), Maueröder, C. (Christian), McGrath, M. (Mairi), McInnes, I.B. (Iain), Mei, H.E. (Henrik E.), Melchers, F. (Fritz), Melzer, S. (Susanne), Mielenz, D. (Dirk), Mills, K. (Kingston), Mjösberg, J.M. (Jenny), Moore, J. (Jonni), Moran, B. (Barry), Moretta, A. (Alessandro), Moretta, L. (Lorenzo), Mosmann, T.R. (Tim R.), Müller, S. (Susann), Müller, W. (Werner), Münz, C. (Christian), Multhoff, G. (Gabriele), Munoz, L.E. (Luis Enrique), Murphy, K.M. (Kenneth M.), Nakayama, T. (Toshinori), Nasi, M. (Milena), Neudörfl, C. (Christine), Nolan, J. (John), Nourshargh, S. (Sussan), O'Connor, J.-E. (José-Enrique), Ouyang, W. (Wenjun), Oxenius, A. (Annette), Palankar, R. (Raghav), Panse, I. (Isabel), Peterson, P. (Pärt), Peth, C. (Christian), Petriz, J. (Jordi), Philips, D. (Daisy), Pickl, W. (Winfried), Piconese, S. (Silvia), Pinti, M. (Marcello), Pockley, A.G. (A. Graham), Podolska, M.J. (Malgorzata Justyna), Pucillo, C. (Carlo), Quataert, S.A. (Sally A.), Radstake, T.R.D.J. (Timothy R. D. J.), Rajwa, B. (Bartek), Rebhahn, J.A. (Jonathan A.), Recktenwald, D. (Diether), Remmerswaal, D. (Daniëlle), Rezvani, K. (Katy), Rico, L.G. (Laura G.), Robinson, J.P. (J. Paul), Romagnani, C. (Chiara), Rubartelli, A. (Anna), Ruland, J. (Jürgen), Sakaguchi, S. (Shimon), Sala-de-Oyanguren, F. (Francisco), Samstag, Y. (Yvonne), Sanderson, S. (Sharon), Sawitzki, B. (Birgit), Scheffold, A. (Alexander), Schiemann, M. (Matthias), Schildberg, F. (Frank), Schimisky, E. (Esther), Schmid, S.A. (Stephan A), Schmitt, S. (Steffen), Schober, K. (Kilian), Schüler, T. (Thomas), Schulz, A.R. (Axel Ronald), Schumacher, T.N. (Ton), Scotta, C. (Cristiano), Shankey, T.V. (T. Vincent), Shemer, A. (Anat), Simon, A.-K. (Anna-Katharina), Spidlen, J. (Josef), Stall, A.M. (Alan M.), Stark, R. (Regina), Stehle, C. (Christina), Stein, M. (Merle), Steinmetz, T. (Tobit), Stockinger, H. (Hannes), Takahama, Y. (Yousuke), Tarnok, A. (Attila), Tian, Z. (ZhiGang), Toldi, G. (Gergely), Tornack, J. (Julia), Traggiai, E. (Elisabetta), Trotter, J. (Joe), Ulrich, H. (Henning), van der Braber, M. (Marlous), Van Lier, R.A.W. (Rene A. W.), Veldhoen, M. (Marcello), Vento-Asturias, S. (Salvador), Vieira, P. (Paulo), Voehringer, D. (David), Volk, H.D. (Hans), von Volkmann, K. (Konrad), Waisman, A. (Ari), Walker, R. (Rachael), Ward, M.D. (Michael D.), Warnatz, K. (Klaus), Warth, S. (Sarah), Watson, J.V. (James V.), Watzl, C. (Carsten), Wegener, L. (Leonie), Wiedemann, A. (Annika), Wienands, J. (Jürgen), Willimsky, G. (Gerald), Wing, J. (James), Wurst, P. (Peter), Yu, L. (Liping), Yue, A. (Alice), Zhang, Q. (Qianjun), Zhao, Y. (Yi), Ziegler, S. (Susanne), and Zimmermann, J. (Jakob)

Published
2017
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8. EFhd2/Swiprosin-1 is a common genetic determinator for sensation-seeking/low anxiety and alcohol addiction

Author

Mielenz, D, Reichel, M, Jia, T, Quinlan, E B, Stöckl, T, Mettang, M, Zilske, D, Kirmizi-Alsan, E, Schönberger, P, Praetner, M, Huber, S E, Amato, D, Schwarz, M, Purohit, P, Brachs, S, Spranger, J, Hess, A, Büttner, C, Ekici, A B, Perez-Branguli, F, Winner, B, Rauschenberger, V, Banaschewski, T, Bokde, A L W, Büchel, C, Conrod, P J, Desrivières, S, Flor, H, Frouin, V, Gallinat, J, Garavan, H, Gowland, P, Heinz, A, Martinot, J-L, Lemaitre, H, Nees, F, Paus, T, Smolka, M N, Schambony, A, Bäuerle, T, Eulenburg, V, Alzheimer, C, Lourdusamy, A, Schumann, G, and Müller, C P

Abstract

In many societies, the majority of adults regularly consume alcohol. However, only a small proportion develops alcohol addiction. Individuals at risk often show a high sensation-seeking/low-anxiety behavioural phenotype. Here we asked which role EF hand domain containing 2 (EFhd2; Swiprosin-1) plays in the control of alcohol addiction-associated behaviours. EFhd2 knockout (KO) mice drink more alcohol than controls and spontaneously escalate their consumption. This coincided with a sensation-seeking and low-anxiety phenotype. A reversal of the behavioural phenotype with β-carboline, an anxiogenic inverse benzodiazepine receptor agonist, normalized alcohol preference in EFhd2 KO mice, demonstrating an EFhd2-driven relationship between personality traits and alcohol preference. These findings were confirmed in a human sample where we observed a positive association of the EFhd2 single-nucleotide polymorphism rs112146896 with lifetime drinking and a negative association with anxiety in healthy adolescents. The lack of EFhd2 reduced extracellular dopamine levels in the brain, but enhanced responses to alcohol. In confirmation, gene expression analysis revealed reduced tyrosine hydroxylase expression and the regulation of genes involved in cortex development, Eomes and Pax6, in EFhd2 KO cortices. These findings were corroborated in Xenopus tadpoles by EFhd2 knockdown. Magnetic resonance imaging (MRI) in mice showed that a lack of EFhd2 reduces cortical volume in adults. Moreover, human MRI confirmed the negative association between lifetime alcohol drinking and superior frontal gyrus volume. We propose that EFhd2 is a conserved resilience factor against alcohol consumption and its escalation, working through Pax6/Eomes. Reduced EFhd2 function induces high-risk personality traits of sensation-seeking/low anxiety associated with enhanced alcohol consumption, which may be related to cortex function.

Published
2018
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10. Antibodies to the endoplasmic reticulum-resident chaperones calnexin, BiP and Grp94 in patients with rheumatoid arthritis and systemic lupus erythematosus

Author

Weber, C. K., primary, Haslbeck, M., additional, Englbrecht, M., additional, Sehnert, B., additional, Mielenz, D., additional, Graef, D., additional, Distler, J. H., additional, Mueller, R. B., additional, Burkhardt, H., additional, Schett, G., additional, Voll, R. E., additional, and Furnrohr, B. G., additional

Published
2010
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16. The integrin alpha 7 cytoplasmic domain regulates cell migration, lamellipodia formation, and p130CAS/Crk coupling.

Author

Mielenz, D, Hapke, S, Pöschl, E, von Der Mark, H, and von Der Mark, K

Abstract

The integrin alpha(7)beta(1) is the major laminin-binding integrin in skeletal, heart, and smooth muscle and is a receptor for laminin-1 and -2. It mediates myoblast migration on laminin-1 and -2 and thus might be involved in muscle development and repair. Previously we have shown that alpha(7)B as well as the alpha(7)A and -C splice variants induce cell motility on laminin when transfected into nonmotile HEK293 cells. In this study we have investigated the role of the cytoplasmic domain of alpha(7) in the laminin-induced signal transduction of alpha(7)beta(1) integrin regulating cell adhesion and migration. Deletion of the cytoplasmic domain did not affect assembly of the mutated alpha(7)Deltacyt/beta(1) heterodimer on the cell surface or adhesion of alpha(7)Deltacyt-transfected cells to laminin. The motility of these cells on the laminin-1/E8 fragment, however, was significantly reduced to the level of mock-transfected cells; lamellipodia formation and polarization of the cells were also impaired. Adhesion to the laminin-1/E8 fragment induced tyrosine phosphorylation of the focal adhesion kinase, paxillin, and p130(CAS) as well as the formation of a p130(CAS)-Crk complex in wild-type alpha(7)B-transfected cells. In alpha(7)BDeltacyt cells, however, the extent of p130(CAS) tyrosine formation was reduced and formation of the p130(CAS)-Crk complex was impaired, with unaltered levels of p130(CAS) and Crk protein levels. These findings indicate adhesion-dependent regulation of p130(CAS)/Crk complex formation by the cytoplasmic domain of alpha(7)B integrin after cell adhesion to laminin-1/E8 and imply alpha(7)B-controlled lamellipodia formation and cell migration through the p130(CAS)/Crk protein complex.

Published
2001
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18. Guidelines for the use of flow cytometry and cell sorting in immunological studies (third edition)

Author

Andrea Cossarizza, Hyun‐Dong Chang, Andreas Radbruch, Sergio Abrignani, Richard Addo, Mübeccel Akdis, Immanuel Andrä, Francesco Andreata, Francesco Annunziato, Eduardo Arranz, Petra Bacher, Sudipto Bari, Vincenzo Barnaba, Joana Barros‐Martins, Dirk Baumjohann, Cristian G. Beccaria, David Bernardo, Dominic A. Boardman, Jessica Borger, Chotima Böttcher, Leonie Brockmann, Marie Burns, Dirk H. Busch, Garth Cameron, Ilenia Cammarata, Antonino Cassotta, Yinshui Chang, Fernando Gabriel Chirdo, Eleni Christakou, Luka Čičin‐Šain, Laura Cook, Alexandra J. Corbett, Rebecca Cornelis, Lorenzo Cosmi, Martin S. Davey, Sara De Biasi, Gabriele De Simone, Genny del Zotto, Michael Delacher, Francesca Di Rosa, James Di Santo, Andreas Diefenbach, Jun Dong, Thomas Dörner, Regine J. Dress, Charles‐Antoine Dutertre, Sidonia B. G. Eckle, Pascale Eede, Maximilien Evrard, Christine S. Falk, Markus Feuerer, Simon Fillatreau, Aida Fiz‐Lopez, Marie Follo, Gemma A. Foulds, Julia Fröbel, Nicola Gagliani, Giovanni Galletti, Anastasia Gangaev, Natalio Garbi, José Antonio Garrote, Jens Geginat, Nicholas A. Gherardin, Lara Gibellini, Florent Ginhoux, Dale I. Godfrey, Paola Gruarin, Claudia Haftmann, Leo Hansmann, Christopher M. Harpur, Adrian C. Hayday, Guido Heine, Daniela Carolina Hernández, Martin Herrmann, Oliver Hoelsken, Qing Huang, Samuel Huber, Johanna E. Huber, Jochen Huehn, Michael Hundemer, William Y. K. Hwang, Matteo Iannacone, Sabine M. Ivison, Hans‐Martin Jäck, Peter K. Jani, Baerbel Keller, Nina Kessler, Steven Ketelaars, Laura Knop, Jasmin Knopf, Hui‐Fern Koay, Katja Kobow, Katharina Kriegsmann, H. Kristyanto, Andreas Krueger, Jenny F. Kuehne, Heike Kunze‐Schumacher, Pia Kvistborg, Immanuel Kwok, Daniela Latorre, Daniel Lenz, Megan K. Levings, Andreia C. Lino, Francesco Liotta, Heather M. Long, Enrico Lugli, Katherine N. MacDonald, Laura Maggi, Mala K. Maini, Florian Mair, Calin Manta, Rudolf Armin Manz, Mir‐Farzin Mashreghi, Alessio Mazzoni, James McCluskey, Henrik E. Mei, Fritz Melchers, Susanne Melzer, Dirk Mielenz, Leticia Monin, Lorenzo Moretta, Gabriele Multhoff, Luis Enrique Muñoz, Miguel Muñoz‐Ruiz, Franziska Muscate, Ambra Natalini, Katrin Neumann, Lai Guan Ng, Antonia Niedobitek, Jana Niemz, Larissa Nogueira Almeida, Samuele Notarbartolo, Lennard Ostendorf, Laura J. Pallett, Amit A. Patel, Gulce Itir Percin, Giovanna Peruzzi, Marcello Pinti, A. Graham Pockley, Katharina Pracht, Immo Prinz, Irma Pujol‐Autonell, Nadia Pulvirenti, Linda Quatrini, Kylie M. Quinn, Helena Radbruch, Hefin Rhys, Maria B. Rodrigo, Chiara Romagnani, Carina Saggau, Shimon Sakaguchi, Federica Sallusto, Lieke Sanderink, Inga Sandrock, Christine Schauer, Alexander Scheffold, Hans U. Scherer, Matthias Schiemann, Frank A. Schildberg, Kilian Schober, Janina Schoen, Wolfgang Schuh, Thomas Schüler, Axel R. Schulz, Sebastian Schulz, Julia Schulze, Sonia Simonetti, Jeeshan Singh, Katarzyna M. Sitnik, Regina Stark, Sarah Starossom, Christina Stehle, Franziska Szelinski, Leonard Tan, Attila Tarnok, Julia Tornack, Timothy I. M. Tree, Jasper J. P. van Beek, Willem van de Veen, Klaas van Gisbergen, Chiara Vasco, Nikita A. Verheyden, Anouk von Borstel, Kirsten A. Ward‐Hartstonge, Klaus Warnatz, Claudia Waskow, Annika Wiedemann, Anneke Wilharm, James Wing, Oliver Wirz, Jens Wittner, Jennie H. M. Yang, Juhao Yang, Rolf M. Schwiete Foundation, Associazione Italiana per la Ricerca sul Cancro, German Research Foundation, National Institutes of Health (US), European Commission, AII - Inflammatory diseases, Cossarizza, A, Chang, H, Radbruch, A, Abrignani, S, Addo, R, Akdis, M, Andra, I, Andreata, F, Annunziato, F, Arranz, E, Bacher, P, Bari, S, Barnaba, V, Barros-Martins, J, Baumjohann, D, Beccaria, C, Bernardo, D, Boardman, D, Borger, J, Bottcher, C, Brockmann, L, Burns, M, Busch, D, Cameron, G, Cammarata, I, Cassotta, A, Chang, Y, Chirdo, F, Christakou, E, Cicin-Sain, L, Cook, L, Corbett, A, Cornelis, R, Cosmi, L, Davey, M, De Biasi, S, De Simone, G, del Zotto, G, Delacher, M, Di Rosa, F, Santo, J, Diefenbach, A, Dong, J, Dorner, T, Dress, R, Dutertre, C, Eckle, S, Eede, P, Evrard, M, Falk, C, Feuerer, M, Fillatreau, S, Fiz-Lopez, A, Follo, M, Foulds, G, Frobel, J, Gagliani, N, Galletti, G, Gangaev, A, Garbi, N, Garrote, J, Geginat, J, Gherardin, N, Gibellini, L, Ginhoux, F, Godfrey, D, Gruarin, P, Haftmann, C, Hansmann, L, Harpur, C, Hayday, A, Heine, G, Hernandez, D, Herrmann, M, Hoelsken, O, Huang, Q, Huber, S, Huber, J, Huehn, J, Hundemer, M, Hwang, W, Iannacone, M, Ivison, S, Jack, H, Jani, P, Keller, B, Kessler, N, Ketelaars, S, Knop, L, Knopf, J, Koay, H, Kobow, K, Kriegsmann, K, Kristyanto, H, Krueger, A, Kuehne, J, Kunze-Schumacher, H, Kvistborg, P, Kwok, I, Latorre, D, Lenz, D, Levings, M, Lino, A, Liotta, F, Long, H, Lugli, E, Macdonald, K, Maggi, L, Maini, M, Mair, F, Manta, C, Manz, R, Mashreghi, M, Mazzoni, A, Mccluskey, J, Mei, H, Melchers, F, Melzer, S, Mielenz, D, Monin, L, Moretta, L, Multhoff, G, Munoz, L, Munoz-Ruiz, M, Muscate, F, Natalini, A, Neumann, K, Ng, L, Niedobitek, A, Niemz, J, Almeida, L, Notarbartolo, S, Ostendorf, L, Pallett, L, Patel, A, Percin, G, Peruzzi, G, Pinti, M, Pockley, A, Pracht, K, Prinz, I, Pujol-Autonell, I, Pulvirenti, N, Quatrini, L, Quinn, K, Radbruch, H, Rhys, H, Rodrigo, M, Romagnani, C, Saggau, C, Sakaguchi, S, Sallusto, F, Sanderink, L, Sandrock, I, Schauer, C, Scheffold, A, Scherer, H, Schiemann, M, Schildberg, F, Schober, K, Schoen, J, Schuh, W, Schuler, T, Schulz, A, Schulz, S, Schulze, J, Simonetti, S, Singh, J, Sitnik, K, Stark, R, Starossom, S, Stehle, C, Szelinski, F, Tan, L, Tarnok, A, Tornack, J, Tree, T, van Beek, J, van de Veen, W, van Gisbergen, K, Vasco, C, Verheyden, N, von Borstel, A, Ward-Hartstonge, K, Warnatz, K, Waskow, C, Wiedemann, A, Wilharm, A, Wing, J, Wirz, O, Wittner, J, Yang, J, Publica, Cossarizza, A., Chang, H. -D., Radbruch, A., Abrignani, S., Addo, R., Akdis, M., Andra, I., Andreata, F., Annunziato, F., Arranz, E., Bacher, P., Bari, S., Barnaba, V., Barros-Martins, J., Baumjohann, D., Beccaria, C. G., Bernardo, D., Boardman, D. A., Borger, J., Bottcher, C., Brockmann, L., Burns, M., Busch, D. H., Cameron, G., Cammarata, I., Cassotta, A., Chang, Y., Chirdo, F. G., Christakou, E., Cicin-Sain, L., Cook, L., Corbett, A. J., Cornelis, R., Cosmi, L., Davey, M. S., De Biasi, S., De Simone, G., del Zotto, G., Delacher, M., Di Rosa, F., Santo, J. D., Diefenbach, A., Dong, J., Dorner, T., Dress, R. J., Dutertre, C. -A., Eckle, S. B. G., Eede, P., Evrard, M., Falk, C. S., Feuerer, M., Fillatreau, S., Fiz-Lopez, A., Follo, M., Foulds, G. A., Frobel, J., Gagliani, N., Galletti, G., Gangaev, A., Garbi, N., Garrote, J. A., Geginat, J., Gherardin, N. A., Gibellini, L., Ginhoux, F., Godfrey, D. I., Gruarin, P., Haftmann, C., Hansmann, L., Harpur, C. M., Hayday, A. C., Heine, G., Hernandez, D. C., Herrmann, M., Hoelsken, O., Huang, Q., Huber, S., Huber, J. E., Huehn, J., Hundemer, M., Hwang, W. Y. K., Iannacone, M., Ivison, S. M., Jack, H. -M., Jani, P. K., Keller, B., Kessler, N., Ketelaars, S., Knop, L., Knopf, J., Koay, H. -F., Kobow, K., Kriegsmann, K., Kristyanto, H., Krueger, A., Kuehne, J. F., Kunze-Schumacher, H., Kvistborg, P., Kwok, I., Latorre, D., Lenz, D., Levings, M. K., Lino, A. C., Liotta, F., Long, H. M., Lugli, E., Macdonald, K. N., Maggi, L., Maini, M. K., Mair, F., Manta, C., Manz, R. A., Mashreghi, M. -F., Mazzoni, A., Mccluskey, J., Mei, H. E., Melchers, F., Melzer, S., Mielenz, D., Monin, L., Moretta, L., Multhoff, G., Munoz, L. E., Munoz-Ruiz, M., Muscate, F., Natalini, A., Neumann, K., Ng, L. G., Niedobitek, A., Niemz, J., Almeida, L. N., Notarbartolo, S., Ostendorf, L., Pallett, L. J., Patel, A. A., Percin, G. I., Peruzzi, G., Pinti, M., Pockley, A. G., Pracht, K., Prinz, I., Pujol-Autonell, I., Pulvirenti, N., Quatrini, L., Quinn, K. M., Radbruch, H., Rhys, H., Rodrigo, M. B., Romagnani, C., Saggau, C., Sakaguchi, S., Sallusto, F., Sanderink, L., Sandrock, I., Schauer, C., Scheffold, A., Scherer, H. U., Schiemann, M., Schildberg, F. A., Schober, K., Schoen, J., Schuh, W., Schuler, T., Schulz, A. R., Schulz, S., Schulze, J., Simonetti, S., Singh, J., Sitnik, K. M., Stark, R., Starossom, S., Stehle, C., Szelinski, F., Tan, L., Tarnok, A., Tornack, J., Tree, T. I. M., van Beek, J. J. P., van de Veen, W., van Gisbergen, K., Vasco, C., Verheyden, N. A., von Borstel, A., Ward-Hartstonge, K. A., Warnatz, K., Waskow, C., Wiedemann, A., Wilharm, A., Wing, J., Wirz, O., Wittner, J., Yang, J. H. M., and Yang, J.

Subjects
Immunology, citometry, Flow Cytometry, Infections, ddc, Autoimmune Diseases, Animals, Chronic Disease, Humans, Mice, Neoplasms, Practice Guidelines as Topic, Immunology and Allergy, ddc:610, Function and Dysfunction of the Nervous System, guideline
Abstract

© 2021 The Authors., The third edition of Flow Cytometry Guidelines provides the key aspects to consider when performing flow cytometry experiments and includes comprehensive sections describing phenotypes and functional assays of all major human and murine immune cell subsets. Notably, the Guidelines contain helpful tables highlighting phenotypes and key differences between human and murine cells. Another useful feature of this edition is the flow cytometry analysis of clinical samples with examples of flow cytometry applications in the context of autoimmune diseases, cancers as well as acute and chronic infectious diseases. Furthermore, there are sections detailing tips, tricks and pitfalls to avoid. All sections are written and peer-reviewed by leading flow cytometry experts and immunologists, making this edition an essential and state-of-the-art handbook for basic and clinical researchers., Hyun-Dong Chang is supported by the Dr. Rolf M. Schwiete Foundation. Susanne Melzer and Attila Tarnok thank De Novo Software for providing FCS Express. Enrico Lugli is supported by a grant from the Associazione Italiana per la Ricerca sul Cancro (AIRC IG20676). Gabriele De Simone and Giovanni Galletti were supported by Fellowships from the Fondazione Italiana per la Ricerca sul Cancro-Associazione Italiana per la Ricerca sul Cancro (FIRC-AIRC). Jun Dong is supported by Deutsche Forschungsgemeinschft (DFG, German Research Foundation) Projektnummer 389687267 and Chinesisch-Deutsches Zentrum für Wissenschaftsförderung [Sino-German Center for Research Promotion (SGC)] grant C-0072. Nicola Gagliani, Samuel Huber and Franziska Muscate are supported by DFG fundings: SFB841,GA 2441/3-1, HU 1714/10-1. The tetramer APC-conjugated H-2K (d) HIV-1 gag197-205 AMQMLKETI used in TDS assay for mouse blood T cells was obtained through the NIH Tetramer Facility. Larissa Nogueira Almeida was supported by DFG research grant MA 2273/14-1. Supported by the following grants: AIRC 5X1000 2018 id. 21147 (Lorenzo Moretta); AIRC IG 2017 id. 19920 (Lorenzo Moretta); RC-2020 OPBG (Lorenzo Moretta); AIRC and European Union's Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement No 800924 (Linda Quatrini). Dirk Baumjohann was supported by Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under Emmy Noether Programme BA 5132/1-2 (252623821) and Germany's Excellence Strategy EXC2151 (390873048).

Published
2021
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19. Guidelines for the use of flow cytometry and cell sorting in immunological studies (second edition)

Author

Lara Gibellini, Sussan Nourshargh, Susanna Cardell, Wlodzimierz Maslinski, Mar Felipo-Benavent, Florian Mair, Hans-Martin Jäck, Lilly Lopez, Klaus Warnatz, John Trowsdale, Diana Ordonez, Marcus Eich, William Hwang, Anne Cooke, Dirk Mielenz, Alberto Orfao, Winfried F. Pickl, Vladimir Benes, Alice Yue, T. Vincent Shankey, Maria Tsoumakidou, Virginia Litwin, Gelo Victoriano Dela Cruz, Andrea Cavani, Sara De Biasi, Larissa Nogueira Almeida, Jonathan J M Landry, Claudia Haftmann, Charlotte Esser, Ana Cumano, Anneke Wilharm, Francesco Dieli, Rudi Beyaert, Alessio Mazzoni, Burkhard Ludewig, Carlo Pucillo, Dirk H. Busch, Joe Trotter, Stipan Jonjić, Marc Veldhoen, Josef Spidlen, Aja M. Rieger, Dieter Adam, Srijit Khan, Todd A. Fehniger, Giuseppe Matarese, Maximilien Evrard, Christian Maueröder, Steffen Schmitt, Kristin A. Hogquist, Barry Moran, Raghavendra Palankar, Markus Feuerer, S Schmid, Susann Rahmig, Amy E. Lovett-Racke, James V. Watson, Megan K. Levings, Susanne Melzer, Dinko Pavlinic, Christopher M. Harpur, Christina Stehle, A. Graham Pockley, Toshinori Nakayama, Attila Tárnok, Juhao Yang, Michael Lohoff, Paulo Vieira, Francisco Sala-de-Oyanguren, Christian Kurts, Anastasia Gangaev, Alfonso Blanco, Hans Scherer, Regine J. Dress, Bruno Silva-Santos, Kiyoshi Takeda, Bimba F. Hoyer, Ilenia Cammarata, Daryl Grummitt, Isabel Panse, Günnur Deniz, Bianka Baying, Friederike Ebner, Esther Schimisky, Leo Hansmann, Thomas Kamradt, Edwin van der Pol, Daniel Scott-Algara, Anna Iannone, Giorgia Alvisi, Sebastian R. Schulz, Francesco Liotta, Irmgard Förster, Beatriz Jávega, Hans-Peter Rahn, Caetano Reis e Sousa, Livius Penter, Xuetao Cao, David P. Sester, Keisuke Goda, Peter Wurst, Iain B. McInnes, Ricardo T. Gazzinelli, Federica Piancone, Gerald Willimsky, Yotam Raz, Pärt Peterson, Wolfgang Fritzsche, Yvonne Samstag, Martin Büscher, Thomas Schüler, Susanne Hartmann, Robert J. Wilkinson, Anna E. S. Brooks, Steven L. C. Ketelaars, Catherine Sautès-Fridman, Anna Rubartelli, Petra Bacher, Katja Kobow, Marco A. Cassatella, Andrea Hauser, Henrik E. Mei, Kilian Schober, Silvia Della Bella, Graham Anderson, Michael D. Ward, Garth Cameron, Sebastian Lunemann, Katharina Kriegsmann, Katarzyna M. Sitnik, Brice Gaudilliere, Chantip Dang-Heine, Marcello Pinti, Paul Klenerman, Frank A. Schildberg, Joana Barros-Martins, Laura G. Rico, Hanlin Zhang, Christian Münz, Thomas Dörner, Jakob Zimmermann, Andrea M. Cooper, Jonni S. Moore, Andreas Diefenbach, Yanling Liu, Wolfgang Bauer, Tobit Steinmetz, Katharina Pracht, Leonard Tan, Peter K. Jani, Alan M. Stall, Petra Hoffmann, Christine S. Falk, Jasmin Knopf, Simon Fillatreau, Hans-Dieter Volk, Luis E. Muñoz, David L. Haviland, William W. Agace, Jonathan Rebhahn, Ljiljana Cvetkovic, Mohamed Trebak, Jordi Petriz, Mario Clerici, Diether J. Recktenwald, Anders Ståhlberg, Tristan Holland, Helen M. McGuire, Sa A. Wang, Christian Kukat, Thomas Kroneis, Laura Cook, Wan Ting Kong, Xin M. Wang, Britta Engelhardt, Pierre Coulie, Genny Del Zotto, Sally A. Quataert, Kata Filkor, Gabriele Multhoff, Bartek Rajwa, Federica Calzetti, Hans Minderman, Cosima T. Baldari, Jens Geginat, Hervé Luche, Gert Van Isterdael, Linda Schadt, Sophia Urbanczyk, Giovanna Borsellino, Liping Yu, Dale I. Godfrey, Achille Anselmo, Rachael C. Walker, Andreas Grützkau, David W. Hedley, Birgit Sawitzki, Silvia Piconese, Maria Yazdanbakhsh, Burkhard Becher, Ramon Bellmas Sanz, Michael Delacher, Hyun-Dong Chang, Immanuel Andrä, Hans-Gustaf Ljunggren, José-Enrique O'Connor, Ahad Khalilnezhad, Sharon Sanderson, Federico Colombo, Götz R. A. Ehrhardt, Inga Sandrock, Enrico Lugli, Christian Bogdan, James B. Wing, Susann Müller, Tomohiro Kurosaki, Derek Davies, Ester B. M. Remmerswaal, Kylie M. Quinn, Christopher A. Hunter, Andreas Radbruch, Timothy P. Bushnell, Anna Erdei, Sabine Adam-Klages, Pascale Eede, Van Duc Dang, Rieke Winkelmann, Thomas Korn, Gemma A. Foulds, Dirk Baumjohann, Matthias Schiemann, Manfred Kopf, Jan Kisielow, Lisa Richter, Jochen Huehn, Gloria Martrus, Alexander Scheffold, Jessica G. Borger, Sidonia B G Eckle, John Bellamy Foster, Anna Katharina Simon, Alicia Wong, Mübeccel Akdis, Gisa Tiegs, Toralf Kaiser, James McCluskey, Anna Vittoria Mattioli, Aaron J. Marshall, Hui-Fern Koay, Eva Orlowski-Oliver, Anja E. Hauser, J. Paul Robinson, Jay K. Kolls, Luca Battistini, Mairi McGrath, Jane L. Grogan, Natalio Garbi, Timothy Tree, Kingston H. G. Mills, Stefan H. E. Kaufmann, Wolfgang Schuh, Ryan R. Brinkman, Tim R. Mosmann, Vincenzo Barnaba, Andreas Dolf, Lorenzo Cosmi, Bo Huang, Andreia C. Lino, Baerbel Keller, René A. W. van Lier, Alexandra J. Corbett, Paul S. Frenette, Pleun Hombrink, Helena Radbruch, Sofie Van Gassen, Olivier Lantz, Lorenzo Moretta, Désirée Kunkel, Kirsten A. Ward-Hartstonge, Armin Saalmüller, Leslie Y. T. Leung, Salvador Vento-Asturias, Paola Lanuti, Alicia Martínez-Romero, Sarah Warth, Zhiyong Poon, Diana Dudziak, Andrea Cossarizza, Kovit Pattanapanyasat, Konrad von Volkmann, Jessica P. Houston, Agnès Lehuen, Andrew Filby, Pratip K. Chattopadhyay, Stefano Casola, Annika Wiedemann, Hannes Stockinger, Jürgen Ruland, Arturo Zychlinsky, Claudia Waskow, Katrin Neumann, Ari Waisman, Lucienne Chatenoud, Sudipto Bari, Kamran Ghoreschi, David W. Galbraith, Yvan Saeys, Hamida Hammad, Andrea Gori, Miguel López-Botet, Gabriel Núñez, Sabine Ivison, Michael Hundemer, Dorothea Reimer, Mark C. Dessing, Günter J. Hämmerling, Rudolf A. Manz, Tomas Kalina, Jonas Hahn, Holden T. Maecker, Hendy Kristyanto, Martin S. Davey, Henning Ulrich, Michael L. Dustin, Takashi Saito, Yousuke Takahama, Milena Nasi, Johanna Huber, Jürgen Wienands, Paolo Dellabona, Andreas Schlitzer, Michael D. Leipold, Kerstin H. Mair, Christian Peth, Immo Prinz, Chiara Romagnani, José M. González-Navajas, Josephine Schlosser, Marina Saresella, Matthias Edinger, Dirk Brenner, Nicole Baumgarth, Rikard Holmdahl, Fang-Ping Huang, Guadalupe Herrera, Malte Paulsen, Gergely Toldi, Luka Cicin-Sain, Reiner Schulte, Christina E. Zielinski, Thomas Winkler, Christoph Goettlinger, Philip E. Boulais, Jennie H M Yang, Antonio Celada, Heike Kunze-Schumacher, Julia Tornack, Florian Ingelfinger, Jenny Mjösberg, Andy Riddell, Leonie Wegener, Thomas Höfer, Christoph Hess, James P. Di Santo, Anna E. Oja, J. Kühne, Willem van de Veen, Mary Bebawy, Alberto Mantovani, Bart Everts, Giovanna Lombardi, Laura Maggi, Anouk von Borstel, Pia Kvistborg, Elisabetta Traggiai, A Ochel, Nima Aghaeepour, Charles-Antoine Dutertre, Matthieu Allez, Thomas Höllt, Wenjun Ouyang, Regina Stark, Maries van den Broek, Shimon Sakaguchi, Paul K. Wallace, Silvano Sozzani, Francesca LaRosa, Annette Oxenius, Malgorzata J. Podolska, Ivana Marventano, Wilhelm Gerner, Oliver F. Wirz, Britta Frehse, Gevitha Ravichandran, Martin Herrmann, Carl S. Goodyear, Gary Warnes, Helen Ferry, Stefan Frischbutter, Tim R. Radstake, Salomé LeibundGut-Landmann, Yi Zhao, Axel Schulz, Angela Santoni, Pablo Engel, Daniela C. Hernández, Andreas Acs, Cristiano Scottà, Francesco Annunziato, Thomas Weisenburger, Wolfgang Beisker, Sue Chow, Fritz Melchers, Daniel E. Speiser, Immanuel Kwok, Florent Ginhoux, Dominic A. Boardman, Natalie Stanley, Carsten Watzl, Marie Follo, Erik Lubberts, Andreas Krueger, Susanne Ziegler, Göran K. Hansson, David Voehringer, Antonia Niedobitek, Eleni Christakou, Lai Guan Ng, Sabine Baumgart, Nicholas A Gherardin, Antonio Cosma, Orla Maguire, Jolene Bradford, Daniel Schraivogel, Linda Quatrini, Stephen D. Miller, Rheumatology, Università degli Studi di Modena e Reggio Emilia (UNIMORE), Deutsches Rheuma-ForschungsZentrum (DRFZ), Deutsches Rheuma-ForschungsZentrum, Swiss Institute of Allergy and Asthma Research (SIAF), Universität Zürich [Zürich] = University of Zurich (UZH), Institut de Recherche Saint-Louis - Hématologie Immunologie Oncologie (Département de recherche de l’UFR de médecine, ex- Institut Universitaire Hématologie-IUH) (IRSL), Université de Paris (UP), Ecotaxie, microenvironnement et développement lymphocytaire (EMily (UMR_S_1160 / U1160)), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Paris (UP), Department of Internal Medicine, Università degli Studi di Firenze = University of Florence [Firenze] (UNIFI)-DENOTHE Center, Institute of Clinical Molecular Biology, Kiel University, Department of Life Sciences [Siena, Italy], Università degli Studi di Siena = University of Siena (UNISI), Institut Pasteur, Fondation Cenci Bolognetti - Istituto Pasteur Italia, Fondazione Cenci Bolognetti, Réseau International des Instituts Pasteur (RIIP), Dulbecco Telethon Institute/Department of Biology, Caprotec Bioanalytics GmbH, International Occultation Timing Association European Section (IOTA ES), International Occultation Timing Association European Section, European Molecular Biology Laboratory [Heidelberg] (EMBL), VIB-UGent Center for Inflammation Research [Gand, Belgique] (IRC), VIB [Belgium], Fondazione Santa Lucia (IRCCS), Department of Immunology, Chinese Academy of Medical Sciences, FIRC Institute of Molecular Oncology Foundation, IFOM, Istituto FIRC di Oncologia Molecolare (IFOM), Institut Necker Enfants-Malades (INEM - UM 111 (UMR 8253 / U1151)), Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Department of Physiopatology and Transplantation, University of Milan (DEPT), University of Milan, Monash University [Clayton], Institut des Maladies Emergentes et des Thérapies Innovantes (IMETI), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Institute of Cellular Pathology, Université Catholique de Louvain = Catholic University of Louvain (UCL), Lymphopoïèse (Lymphopoïèse (UMR_1223 / U1223 / U-Pasteur_4)), Institut Pasteur [Paris]-Université Paris Diderot - Paris 7 (UPD7)-Institut National de la Santé et de la Recherche Médicale (INSERM), Experimental Immunology Unit, Dept. of Oncology, DIBIT San Raffaele Scientific Institute, Immunité Innée - Innate Immunity, Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Pasteur [Paris], Charité - UniversitätsMedizin = Charité - University Hospital [Berlin], Department of Biopharmacy [Bruxelles, Belgium] (Institute for Medical Immunology IMI), Université libre de Bruxelles (ULB), Charité Hospital, Humboldt-Universität zu Berlin, Agency for science, technology and research [Singapore] (A*STAR), Laboratory of Molecular Immunology and the Howard Hughes Institute, Rockefeller University [New York], Kennedy Institute of Rheumatology [Oxford, UK], Imperial College London, Theodor Kocher Institute, University of Bern, Leibniz Research Institute for Environmental Medicine [Düsseldorf, Germany] ( IUF), Université Lumière - Lyon 2 (UL2), Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), University of Edinburgh, Integrative Biology Program [Milano], Istituto Nazionale Genetica Molecolare [Milano] (INGM), Singapore Immunology Network (SIgN), Biomedical Sciences Institute (BMSI), Universitat de Barcelona (UB), Rheumatologie, Cell Biology, Department of medicine [Stockholm], Karolinska Institutet [Stockholm]-Karolinska University Hospital [Stockholm], Department for Internal Medicine 3, Institute for Clinical Immunology, Friedrich-Alexander Universität Erlangen-Nürnberg (FAU), Delft University of Technology (TU Delft), Medical Inflammation Research, Karolinska Institutet [Stockholm], Department of Photonics Engineering [Lyngby], Technical University of Denmark [Lyngby] (DTU), Dpt of Experimental Immunology [Braunschweig], Helmholtz Centre for Infection Research (HZI), Department of Internal Medicine V, Universität Heidelberg [Heidelberg], Department of Histology and Embryology, University of Rijeka, Freiburg University Medical Center, Nuffield Dept of Clinical Medicine, University of Oxford [Oxford]-NIHR Biomedical Research Centre, Institute of Integrative Biology, Molecular Biomedicine, Berlin Institute of Health (BIH), Laboratory for Lymphocyte Differentiation, RIKEN Research Center, Institutes of Molecular Medicine and Experimental Immunology, University of Bonn, Immunité et cancer (U932), Institut Curie [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM), Institut Cochin (IC UM3 (UMR 8104 / U1016)), Department of Surgery [Vancouver, BC, Canada] (Child and Family Research Institute), University of British Columbia (UBC)-Child and Family Research Institute [Vancouver, BC, Canada], College of Food Science and Technology [Shangai], Shanghai Ocean University, Institute for Medical Microbiology and Hygiene, University of Marburg, King‘s College London, Erasmus University Medical Center [Rotterdam] (Erasmus MC), Centre d'Immunophénomique (CIPHE), Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Brustzentrum Kantonsspital St. Gallen, Immunotechnology Section, Vaccine Research Center, National Institutes of Health [Bethesda] (NIH)-National Institute of Allergy and Infectious Diseases, Heinrich Pette Institute [Hamburg], Università degli Studi di Firenze = University of Florence [Firenze] (UNIFI), Department of Immunology and Cell Biology, Mario Negri Institute, Laboratory of Molecular Medicine and Biotechnology, Don C. Gnocchi ONLUS Foundation, Institute of Translational Medicine, Klinik für Dermatologie, Venerologie und Allergologie, School of Biochemistry and Immunology, Department of Medicine Huddinge, Karolinska Institutet [Stockholm]-Karolinska University Hospital [Stockholm]-Lipid Laboratory, Università di Genova, Dipartimento di Medicina Sperimentale, Department of Environmental Microbiology, Helmholtz Zentrum für Umweltforschung = Helmholtz Centre for Environmental Research (UFZ), Department of Radiation Oncology [Munich], Ludwig-Maximilians-Universität München (LMU), Centre de Recherche Publique- Santé, Université du Luxembourg (Uni.lu), William Harvey Research Institute, Barts and the London Medical School, University of Michigan [Ann Arbor], University of Michigan System, Centro de Investigacion del Cancer (CSIC), Universitario de Salamanca, Molecular Pathology [Tartu, Estonia], University of Tartu, Hannover Medical School [Hannover] (MHH), Centre d'Immunologie de Marseille - Luminy (CIML), Monash Biomedicine Discovery Institute, Cytometry Laboratories and School of Veterinary Medicine, Purdue University [West Lafayette], Data Mining and Modelling for Biomedicine [Ghent, Belgium], VIB Center for Inflammation Research [Ghent, Belgium], Laboratory for Cell Signaling, RIKEN Research Center for Allergy and Immunology, RIKEN Research Center for Allergy and Immunology, Osaka University [Osaka], Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Centre de Recherche des Cordeliers (CRC (UMR_S_1138 / U1138)), École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Université de Paris (UP), Institute of Medical Immunology [Berlin, Germany], FACS and Array Core Facility, Johannes Gutenberg - Universität Mainz (JGU), Otto-von-Guericke University [Magdeburg] (OVGU), SUPA School of Physics and Astronomy [University of St Andrews], University of St Andrews [Scotland]-Scottish Universities Physics Alliance (SUPA), Biologie Cellulaire des Lymphocytes - Lymphocyte Cell Biology, Institut Pasteur [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM), General Pathology and Immunology (GPI), University of Brescia, Université de Lausanne (UNIL), Terry Fox Laboratory, BC Cancer Agency (BCCRC)-British Columbia Cancer Agency Research Centre, Department of Molecular Immunology, Medizinische Universität Wien = Medical University of Vienna, Dept. Pediatric Cardiology, Universität Leipzig [Leipzig], Universitaetsklinikum Hamburg-Eppendorf = University Medical Center Hamburg-Eppendorf [Hamburg] (UKE), Center for Cardiovascular Sciences, Albany Medical College, Dept Pathol, Div Immunol, University of Cambridge [UK] (CAM), Department of Information Technology [Gent], Universiteit Gent, Department of Plant Systems Biology, Department of Plant Biotechnology and Genetics, Universiteit Gent = Ghent University [Belgium] (UGENT), Division of Molecular Immunology, Institute for Immunology, Department of Geological Sciences, University of Oregon [Eugene], Centers for Disease Control and Prevention [Atlanta] (CDC), Centers for Disease Control and Prevention, University of Colorado [Colorado Springs] (UCCS), FACS laboratory, Cancer Research, London, Cancer Research UK, Regeneration in Hematopoiesis and Animal Models of Hematopoiesis, Faculty of Medicine, Dresden University of Technology, Barbara Davis Center for Childhood Diabetes (BDC), University of Colorado Anschutz [Aurora], School of Computer and Electronic Information [Guangxi University], Guangxi University [Nanning], School of Materials Science and Engineering, Nanyang Technological University [Singapour], Max Planck Institute for Infection Biology (MPIIB), Max-Planck-Gesellschaft, Work in the laboratory of Dieter Adam is supported by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation)—Projektnummer 125440785 – SFB 877, Project B2.Petra Hoffmann, Andrea Hauser, and Matthias Edinger thank BD Biosciences®, San José, CA, USA, and SKAN AG, Bale, Switzerland for fruitful cooperation during the development, construction, and installation of the GMP‐compliant cell sorting equipment and the Bavarian Immune Therapy Network (BayImmuNet) for financial support.Edwin van der Pol and Paola Lanuti acknowledge Aleksandra Gąsecka M.D. for excellent experimental support and Dr. Rienk Nieuwland for textual suggestions. This work was supported by the Netherlands Organisation for Scientific Research – Domain Applied and Engineering Sciences (NWO‐TTW), research program VENI 15924.Jessica G Borger, Kylie M Quinn, Mairi McGrath, and Regina Stark thank Francesco Siracusa and Patrick Maschmeyer for providing data.Larissa Nogueira Almeida was supported by DFG research grant MA 2273/14‐1. Rudolf A. Manz was supported by the Excellence Cluster 'Inflammation at Interfaces' (EXC 306/2).Susanne Hartmann and Friederike Ebner were supported by the German Research Foundation (GRK 2046).Hans Minderman was supported by NIH R50CA211108.This work was funded by the Deutsche Forschungsgemeinschaft through the grant TRR130 (project P11 and C03) to Thomas H. Winkler.Ramon Bellmàs Sanz, Jenny Kühne, and Christine S. Falk thank Jana Keil and Kerstin Daemen for excellent technical support. The work was funded by the Germany Research Foundation CRC738/B3 (CSF).The work by the Mei laboratory was supported by German Research Foundation Grant ME 3644/5‐1 and TRR130 TP24, the German Rheumatism Research Centre Berlin, European Union Innovative Medicines Initiative ‐ Joint Undertaking ‐ RTCure Grant Agreement 777357, the Else Kröner‐Fresenius‐Foundation, German Federal Ministry of Education and Research e:Med sysINFLAME Program Grant 01ZX1306B and KMU‐innovativ 'InnoCyt', and the Leibniz Science Campus for Chronic Inflammation (http://www.chronische-entzuendung.org).Axel Ronald Schulz, Antonio Cosma, Sabine Baumgart, Brice Gaudilliere, Helen M. McGuire, and Henrik E. Mei thank Michael D. Leipold for critically reading the manuscript.Christian Kukat acknowledges support from the ISAC SRL Emerging Leaders program.John Trowsdale received funding from the European Research Council under the European Union's Horizon 2020 research and innovation program (Grant Agreement 695551)., European Project: 7728036(1978), Università degli Studi di Modena e Reggio Emilia = University of Modena and Reggio Emilia (UNIMORE), Université Paris Cité (UPCité), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité), Università degli Studi di Firenze = University of Florence (UniFI)-DENOTHE Center, Università degli Studi di Milano = University of Milan (UNIMI), Institut Pasteur [Paris] (IP)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de la Santé et de la Recherche Médicale (INSERM), Institut Pasteur [Paris] (IP)-Institut National de la Santé et de la Recherche Médicale (INSERM), Humboldt University Of Berlin, Leibniz Research Institute for Environmental Medicine [Düsseldorf, Germany] (IUF), Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Danmarks Tekniske Universitet = Technical University of Denmark (DTU), Universität Heidelberg [Heidelberg] = Heidelberg University, Universitäts Klinikum Freiburg = University Medical Center Freiburg (Uniklinik), University of Oxford-NIHR Biomedical Research Centre, Universität Bonn = University of Bonn, Università degli Studi di Firenze = University of Florence (UniFI), Università degli studi di Genova = University of Genoa (UniGe), Universidad de Salamanca, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA), École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Université Paris Cité (UPCité), Johannes Gutenberg - Universität Mainz = Johannes Gutenberg University (JGU), Otto-von-Guericke-Universität Magdeburg = Otto-von-Guericke University [Magdeburg] (OVGU), Université de Lausanne = University of Lausanne (UNIL), Universität Leipzig, Universiteit Gent = Ghent University (UGENT), HZI,Helmholtz-Zentrum für Infektionsforschung GmbH, Inhoffenstr. 7,38124 Braunschweig, Germany., Cossarizza, A., Chang, H. -D., Radbruch, A., Acs, A., Adam, D., Adam-Klages, S., Agace, W. W., Aghaeepour, N., Akdis, M., Allez, M., Almeida, L. N., Alvisi, G., Anderson, G., Andra, I., Annunziato, F., Anselmo, A., Bacher, P., Baldari, C. T., Bari, S., Barnaba, V., Barros-Martins, J., Battistini, L., Bauer, W., Baumgart, S., Baumgarth, N., Baumjohann, D., Baying, B., Bebawy, M., Becher, B., Beisker, W., Benes, V., Beyaert, R., Blanco, A., Boardman, D. A., Bogdan, C., Borger, J. G., Borsellino, G., Boulais, P. E., Bradford, J. A., Brenner, D., Brinkman, R. R., Brooks, A. E. S., Busch, D. H., Buscher, M., Bushnell, T. P., Calzetti, F., Cameron, G., Cammarata, I., Cao, X., Cardell, S. L., Casola, S., Cassatella, M. A., Cavani, A., Celada, A., Chatenoud, L., Chattopadhyay, P. K., Chow, S., Christakou, E., Cicin-Sain, L., Clerici, M., Colombo, F. S., Cook, L., Cooke, A., Cooper, A. M., Corbett, A. J., Cosma, A., Cosmi, L., Coulie, P. G., Cumano, A., Cvetkovic, L., Dang, V. D., Dang-Heine, C., Davey, M. S., Davies, D., De Biasi, S., Del Zotto, G., Dela Cruz, G. V., Delacher, M., Della Bella, S., Dellabona, P., Deniz, G., Dessing, M., Di Santo, J. P., Diefenbach, A., Dieli, F., Dolf, A., Dorner, T., Dress, R. J., Dudziak, D., Dustin, M., Dutertre, C. -A., Ebner, F., Eckle, S. B. G., Edinger, M., Eede, P., Ehrhardt, G. R. A., Eich, M., Engel, P., Engelhardt, B., Erdei, A., Esser, C., Everts, B., Evrard, M., Falk, C. S., Fehniger, T. A., Felipo-Benavent, M., Ferry, H., Feuerer, M., Filby, A., Filkor, K., Fillatreau, S., Follo, M., Forster, I., Foster, J., Foulds, G. A., Frehse, B., Frenette, P. S., Frischbutter, S., Fritzsche, W., Galbraith, D. W., Gangaev, A., Garbi, N., Gaudilliere, B., Gazzinelli, R. T., Geginat, J., Gerner, W., Gherardin, N. A., Ghoreschi, K., Gibellini, L., Ginhoux, F., Goda, K., Godfrey, D. I., Goettlinger, C., Gonzalez-Navajas, J. M., Goodyear, C. S., Gori, A., Grogan, J. L., Grummitt, D., Grutzkau, A., Haftmann, C., Hahn, J., Hammad, H., Hammerling, G., Hansmann, L., Hansson, G., Harpur, C. M., Hartmann, S., Hauser, A., Hauser, A. E., Haviland, D. L., Hedley, D., Hernandez, D. C., Herrera, G., Herrmann, M., Hess, C., Hofer, T., Hoffmann, P., Hogquist, K., Holland, T., Hollt, T., Holmdahl, R., Hombrink, P., Houston, J. P., Hoyer, B. F., Huang, B., Huang, F. -P., Huber, J. E., Huehn, J., Hundemer, M., Hunter, C. A., Hwang, W. Y. K., Iannone, A., Ingelfinger, F., Ivison, S. M., Jack, H. -M., Jani, P. K., Javega, B., Jonjic, S., Kaiser, T., Kalina, T., Kamradt, T., Kaufmann, S. H. E., Keller, B., Ketelaars, S. L. C., Khalilnezhad, A., Khan, S., Kisielow, J., Klenerman, P., Knopf, J., Koay, H. -F., Kobow, K., Kolls, J. K., Kong, W. T., Kopf, M., Korn, T., Kriegsmann, K., Kristyanto, H., Kroneis, T., Krueger, A., Kuhne, J., Kukat, C., Kunkel, D., Kunze-Schumacher, H., Kurosaki, T., Kurts, C., Kvistborg, P., Kwok, I., Landry, J., Lantz, O., Lanuti, P., Larosa, F., Lehuen, A., LeibundGut-Landmann, S., Leipold, M. D., Leung, L. Y. T., Levings, M. K., Lino, A. C., Liotta, F., Litwin, V., Liu, Y., Ljunggren, H. -G., Lohoff, M., Lombardi, G., Lopez, L., Lopez-Botet, M., Lovett-Racke, A. E., Lubberts, E., Luche, H., Ludewig, B., Lugli, E., Lunemann, S., Maecker, H. T., Maggi, L., Maguire, O., Mair, F., Mair, K. H., Mantovani, A., Manz, R. A., Marshall, A. J., Martinez-Romero, A., Martrus, G., Marventano, I., Maslinski, W., Matarese, G., Mattioli, A. V., Maueroder, C., Mazzoni, A., Mccluskey, J., Mcgrath, M., Mcguire, H. M., Mcinnes, I. B., Mei, H. E., Melchers, F., Melzer, S., Mielenz, D., Miller, S. D., Mills, K. H. G., Minderman, H., Mjosberg, J., Moore, J., Moran, B., Moretta, L., Mosmann, T. R., Muller, S., Multhoff, G., Munoz, L. E., Munz, C., Nakayama, T., Nasi, M., Neumann, K., Ng, L. G., Niedobitek, A., Nourshargh, S., Nunez, G., O'Connor, J. -E., Ochel, A., Oja, A., Ordonez, D., Orfao, A., Orlowski-Oliver, E., Ouyang, W., Oxenius, A., Palankar, R., Panse, I., Pattanapanyasat, K., Paulsen, M., Pavlinic, D., Penter, L., Peterson, P., Peth, C., Petriz, J., Piancone, F., Pickl, W. F., Piconese, S., Pinti, M., Pockley, A. G., Podolska, M. J., Poon, Z., Pracht, K., Prinz, I., Pucillo, C. E. M., Quataert, S. A., Quatrini, L., Quinn, K. M., Radbruch, H., Radstake, T. R. D. J., Rahmig, S., Rahn, H. -P., Rajwa, B., Ravichandran, G., Raz, Y., Rebhahn, J. A., Recktenwald, D., Reimer, D., Reis e Sousa, C., Remmerswaal, E. B. M., Richter, L., Rico, L. G., Riddell, A., Rieger, A. M., Robinson, J. P., Romagnani, C., Rubartelli, A., Ruland, J., Saalmuller, A., Saeys, Y., Saito, T., Sakaguchi, S., Sala-de-Oyanguren, F., Samstag, Y., Sanderson, S., Sandrock, I., Santoni, A., Sanz, R. B., Saresella, M., Sautes-Fridman, C., Sawitzki, B., Schadt, L., Scheffold, A., Scherer, H. U., Schiemann, M., Schildberg, F. A., Schimisky, E., Schlitzer, A., Schlosser, J., Schmid, S., Schmitt, S., Schober, K., Schraivogel, D., Schuh, W., Schuler, T., Schulte, R., Schulz, A. R., Schulz, S. R., Scotta, C., Scott-Algara, D., Sester, D. P., Shankey, T. V., Silva-Santos, B., Simon, A. K., Sitnik, K. M., Sozzani, S., Speiser, D. E., Spidlen, J., Stahlberg, A., Stall, A. M., Stanley, N., Stark, R., Stehle, C., Steinmetz, T., Stockinger, H., Takahama, Y., Takeda, K., Tan, L., Tarnok, A., Tiegs, G., Toldi, G., Tornack, J., Traggiai, E., Trebak, M., Tree, T. I. M., Trotter, J., Trowsdale, J., Tsoumakidou, M., Ulrich, H., Urbanczyk, S., van de Veen, W., van den Broek, M., van der Pol, E., Van Gassen, S., Van Isterdael, G., van Lier, R. A. W., Veldhoen, M., Vento-Asturias, S., Vieira, P., Voehringer, D., Volk, H. -D., von Borstel, A., von Volkmann, K., Waisman, A., Walker, R. V., Wallace, P. K., Wang, S. A., Wang, X. M., Ward, M. D., Ward-Hartstonge, K. A., Warnatz, K., Warnes, G., Warth, S., Waskow, C., Watson, J. V., Watzl, C., Wegener, L., Weisenburger, T., Wiedemann, A., Wienands, J., Wilharm, A., Wilkinson, R. J., Willimsky, G., Wing, J. B., Winkelmann, R., Winkler, T. H., Wirz, O. F., Wong, A., Wurst, P., Yang, J. H. M., Yang, J., Yazdanbakhsh, M., Yu, L., Yue, A., Zhang, H., Zhao, Y., Ziegler, S. M., Zielinski, C., Zimmermann, J., Zychlinsky, A., UCL - SSS/DDUV - Institut de Duve, UCL - SSS/DDUV/GECE - Génétique cellulaire, Netherlands Organization for Scientific Research, German Research Foundation, European Commission, European Research Council, Repositório da Universidade de Lisboa, CCA - Imaging and biomarkers, Experimental Immunology, AII - Infectious diseases, AII - Inflammatory diseases, Biomedical Engineering and Physics, ACS - Atherosclerosis & ischemic syndromes, and Landsteiner Laboratory

Subjects
0301 basic medicine, Consensus, Immunology, Consensu, Cell Separation, Biology, Article, Flow cytometry, 03 medical and health sciences, 0302 clinical medicine, Guidelines, Allergy and Immunology, medicine, Cell separation, Immunology and Allergy, Humans, guidelines, flow cytometry, immunology, medicine.diagnostic_test, BIOMEDICINE AND HEALTHCARE. Basic Medical Sciences, Cell sorting, Flow Cytometry, Cell selection, Data science, 3. Good health, 030104 developmental biology, Phenotype, [SDV.IMM]Life Sciences [q-bio]/Immunology, BIOMEDICINA I ZDRAVSTVO. Temeljne medicinske znanosti, 030215 immunology, Human
Abstract

All authors: Andrea Cossarizza Hyun‐Dong Chang Andreas Radbruch Andreas Acs Dieter Adam Sabine Adam‐Klages William W. Agace Nima Aghaeepour Mübeccel Akdis Matthieu Allez Larissa Nogueira Almeida Giorgia Alvisi Graham Anderson Immanuel Andrä Francesco Annunziato Achille Anselmo Petra Bacher Cosima T. Baldari Sudipto Bari Vincenzo Barnaba Joana Barros‐Martins Luca Battistini Wolfgang Bauer Sabine Baumgart Nicole Baumgarth Dirk Baumjohann Bianka Baying Mary Bebawy Burkhard Becher Wolfgang Beisker Vladimir Benes Rudi Beyaert Alfonso Blanco Dominic A. Boardman Christian Bogdan Jessica G. Borger Giovanna Borsellino Philip E. Boulais Jolene A. Bradford Dirk Brenner Ryan R. Brinkman Anna E. S. Brooks Dirk H. Busch Martin Büscher Timothy P. Bushnell Federica Calzetti Garth Cameron Ilenia Cammarata Xuetao Cao Susanna L. Cardell Stefano Casola Marco A. Cassatella Andrea Cavani Antonio Celada Lucienne Chatenoud Pratip K. Chattopadhyay Sue Chow Eleni Christakou Luka Čičin‐Šain Mario Clerici Federico S. Colombo Laura Cook Anne Cooke Andrea M. Cooper Alexandra J. Corbett Antonio Cosma Lorenzo Cosmi Pierre G. Coulie Ana Cumano Ljiljana Cvetkovic Van Duc Dang Chantip Dang‐Heine Martin S. Davey Derek Davies Sara De Biasi Genny Del Zotto Gelo Victoriano Dela Cruz Michael Delacher Silvia Della Bella Paolo Dellabona Günnur Deniz Mark Dessing James P. Di Santo Andreas Diefenbach Francesco Dieli Andreas Dolf Thomas Dörner Regine J. Dress Diana Dudziak Michael Dustin Charles‐Antoine Dutertre Friederike Ebner Sidonia B. G. Eckle Matthias Edinger Pascale Eede Götz R.A. Ehrhardt Marcus Eich Pablo Engel Britta Engelhardt Anna Erdei Charlotte Esser Bart Everts Maximilien Evrard Christine S. Falk Todd A. Fehniger Mar Felipo‐Benavent Helen Ferry Markus Feuerer Andrew Filby Kata Filkor Simon Fillatreau Marie Follo Irmgard Förster John Foster Gemma A. Foulds Britta Frehse Paul S. Frenette Stefan Frischbutter Wolfgang Fritzsche David W. Galbraith Anastasia Gangaev Natalio Garbi Brice Gaudilliere Ricardo T. Gazzinelli Jens Geginat Wilhelm Gerner Nicholas A. Gherardin Kamran Ghoreschi Lara Gibellini Florent Ginhoux Keisuke Goda Dale I. Godfrey Christoph Goettlinger Jose M. González‐Navajas Carl S. Goodyear Andrea Gori Jane L. Grogan Daryl Grummitt Andreas Grützkau Claudia Haftmann Jonas Hahn Hamida Hammad Günter Hämmerling Leo Hansmann Goran Hansson Christopher M. Harpur Susanne Hartmann Andrea Hauser Anja E. Hauser David L. Haviland David Hedley Daniela C. Hernández Guadalupe Herrera Martin Herrmann Christoph Hess Thomas Höfer Petra Hoffmann Kristin Hogquist Tristan Holland Thomas Höllt Rikard Holmdahl Pleun Hombrink Jessica P. Houston Bimba F. Hoyer Bo Huang Fang‐Ping Huang Johanna E. Huber Jochen Huehn Michael Hundemer Christopher A. Hunter William Y. K. Hwang Anna Iannone Florian Ingelfinger Sabine M Ivison Hans‐Martin Jäck Peter K. Jani Beatriz Jávega Stipan Jonjic Toralf Kaiser Tomas Kalina Thomas Kamradt Stefan H. E. Kaufmann Baerbel Keller Steven L. C. Ketelaars Ahad Khalilnezhad Srijit Khan Jan Kisielow Paul Klenerman Jasmin Knopf Hui‐Fern Koay Katja Kobow Jay K. Kolls Wan Ting Kong Manfred Kopf Thomas Korn Katharina Kriegsmann Hendy Kristyanto Thomas Kroneis Andreas Krueger Jenny Kühne Christian Kukat Désirée Kunkel Heike Kunze‐Schumacher Tomohiro Kurosaki Christian Kurts Pia Kvistborg Immanuel Kwok Jonathan Landry Olivier Lantz Paola Lanuti Francesca LaRosa Agnès Lehuen Salomé LeibundGut‐Landmann Michael D. Leipold Leslie Y.T. Leung Megan K. Levings Andreia C. Lino Francesco Liotta Virginia Litwin Yanling Liu Hans‐Gustaf Ljunggren Michael Lohoff Giovanna Lombardi Lilly Lopez Miguel López‐Botet Amy E. Lovett‐Racke Erik Lubberts Herve Luche Burkhard Ludewig Enrico Lugli Sebastian Lunemann Holden T. Maecker Laura Maggi Orla Maguire Florian Mair Kerstin H. Mair Alberto Mantovani Rudolf A. Manz Aaron J. Marshall Alicia Martínez‐Romero Glòria Martrus Ivana Marventano Wlodzimierz Maslinski Giuseppe Matarese Anna Vittoria Mattioli Christian Maueröder Alessio Mazzoni James McCluskey Mairi McGrath Helen M. McGuire Iain B. McInnes Henrik E. Mei Fritz Melchers Susanne Melzer Dirk Mielenz Stephen D. Miller Kingston H.G. Mills Hans Minderman Jenny Mjösberg Jonni Moore Barry Moran Lorenzo Moretta Tim R. Mosmann Susann Müller Gabriele Multhoff Luis Enrique Muñoz Christian Münz Toshinori Nakayama Milena Nasi Katrin Neumann Lai Guan Ng Antonia Niedobitek Sussan Nourshargh Gabriel Núñez José‐Enrique O'Connor Aaron Ochel Anna Oja Diana Ordonez Alberto Orfao Eva Orlowski‐Oliver Wenjun Ouyang Annette Oxenius Raghavendra Palankar Isabel Panse Kovit Pattanapanyasat Malte Paulsen Dinko Pavlinic Livius Penter Pärt Peterson Christian Peth Jordi Petriz Federica Piancone Winfried F. Pickl Silvia Piconese Marcello Pinti A. Graham Pockley Malgorzata Justyna Podolska Zhiyong Poon Katharina Pracht Immo Prinz Carlo E. M. Pucillo Sally A. Quataert Linda Quatrini Kylie M. Quinn Helena Radbruch Tim R. D. J. Radstake Susann Rahmig Hans‐Peter Rahn Bartek Rajwa Gevitha Ravichandran Yotam Raz Jonathan A. Rebhahn Diether Recktenwald Dorothea Reimer Caetano Reis e Sousa Ester B.M. Remmerswaal Lisa Richter Laura G. Rico Andy Riddell Aja M. Rieger J. Paul Robinson Chiara Romagnani Anna Rubartelli Jürgen Ruland Armin Saalmüller Yvan Saeys Takashi Saito Shimon Sakaguchi Francisco Sala‐de‐Oyanguren Yvonne Samstag Sharon Sanderson Inga Sandrock Angela Santoni Ramon Bellmàs Sanz Marina Saresella Catherine Sautes‐Fridman Birgit Sawitzki Linda Schadt Alexander Scheffold Hans U. Scherer Matthias Schiemann Frank A. Schildberg Esther Schimisky Andreas Schlitzer Josephine Schlosser Stephan Schmid Steffen Schmitt Kilian Schober Daniel Schraivogel Wolfgang Schuh Thomas Schüler Reiner Schulte Axel Ronald Schulz Sebastian R. Schulz Cristiano Scottá Daniel Scott‐Algara David P. Sester T. Vincent Shankey Bruno Silva‐Santos Anna Katharina Simon Katarzyna M. Sitnik Silvano Sozzani Daniel E. Speiser Josef Spidlen Anders Stahlberg Alan M. Stall Natalie Stanley Regina Stark Christina Stehle Tobit Steinmetz Hannes Stockinger Yousuke Takahama Kiyoshi Takeda Leonard Tan Attila Tárnok Gisa Tiegs Gergely Toldi Julia Tornack Elisabetta Traggiai Mohamed Trebak Timothy I.M. Tree Joe Trotter John Trowsdale Maria Tsoumakidou Henning Ulrich Sophia Urbanczyk Willem van de Veen Maries van den Broek Edwin van der Pol Sofie Van Gassen Gert Van Isterdael René A.W. van Lier Marc Veldhoen Salvador Vento‐Asturias Paulo Vieira David Voehringer Hans‐Dieter Volk Anouk von Borstel Konrad von Volkmann Ari Waisman Rachael V. Walker Paul K. Wallace Sa A. Wang Xin M. Wang Michael D. Ward Kirsten A Ward‐Hartstonge Klaus Warnatz Gary Warnes Sarah Warth Claudia Waskow James V. Watson Carsten Watzl Leonie Wegener Thomas Weisenburger Annika Wiedemann Jürgen Wienands Anneke Wilharm Robert John Wilkinson Gerald Willimsky James B. Wing Rieke Winkelmann Thomas H. Winkler Oliver F. Wirz Alicia Wong Peter Wurst Jennie H. M. Yang Juhao Yang Maria Yazdanbakhsh Liping Yu Alice Yue Hanlin Zhang Yi Zhao Susanne Maria Ziegler Christina Zielinski Jakob Zimmermann Arturo Zychlinsky., These guidelines are a consensus work of a considerable number of members of the immunology and flow cytometry community. They provide the theory and key practical aspects of flow cytometry enabling immunologists to avoid the common errors that often undermine immunological data. Notably, there are comprehensive sections of all major immune cell types with helpful Tables detailing phenotypes in murine and human cells. The latest flow cytometry techniques and applications are also described, featuring examples of the data that can be generated and, importantly, how the data can be analysed. Furthermore, there are sections detailing tips, tricks and pitfalls to avoid, all written and peer‐reviewed by leading experts in the field, making this an essential research companion., This work was supported by the Netherlands Organisation for Scientific Research – Domain Applied and Engineering Sciences (NWO-TTW), research program VENI 15924. This work was funded by the Deutsche Forschungsgemeinschaft. European Union Innovative Medicines Initiative - Joint Undertaking - RTCure Grant Agreement 777357 and innovation program (Grant Agreement 695551).

Published
2019
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20. Guidelines for the use of flow cytometry and cell sorting in immunological studies

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Guadalupe Herrera, Jens Geginat, Daryl Grummitt, Vincenzo Barnaba, Joanne Lannigan, Beate Rückert, Elisabetta Traggiai, Christian Münz, Susanne Melzer, Ari Waisman, Pratip K. Chattopadhyay, Jonas Hahn, T. Vincent Shankey, S Schmid, Julia Tornack, David W. Hedley, Paolo Dellabona, Jürgen Wienands, Ana Cumano, Ester B. M. Remmerswaal, Christopher A. Hunter, Van Duc Dang, Anis Larbi, Timothy P. Bushnell, Mor Gross, Wenjun Ouyang, Vera S. Donnenberg, Lilly Lopez, Holden T. Maecker, Jenny Mjösberg, Christina Stehle, Yanling Liu, Alan M. Stall, Anja E. Hauser, Yousuke Takahama, Mark C. Dessing, Gergely Toldi, Klaus Warnatz, Raghav Palankar, Sussan Nourshargh, Enrico Lugli, Bimba F. Hoyer, Pleun Hombrink, Bartek Rajwa, Sarah Warth, Isabel Panse, Rachael C. Walker, Silvia Piconese, Andrew Filby, Pärt Peterson, Kilian Schober, Silvia Della Bella, Leonie Wegener, Merle Stein, Anne Cooke, Alessandro Moretta, Deborah Kienhöfer, Andrea Cossarizza, Hyun-Dong Chang, Konrad von Volkmann, Jessica P. Houston, Mübeccel Akdis, Andreas Grützkau, Tristan Holland, Jakob Zimmermann, Jonni S. Moore, Dirk Mielenz, Iain B. McInnes, Bo Huang, Paulo Vieira, Thomas Kroneis, Tobit Steinmetz, Kerstin Juelke, Sharon Sanderson, James V. Watson, Srijit Khan, Sally A. Quataert, Winfried F. Pickl, Annika Wiedemann, Sara De Biasi, Andreas Radbruch, James B. Wing, Susann Müller, Ton N. Schumacher, Katy Rezvani, Gloria Martrus, Alexander Scheffold, Toralf Kaiser, Carlo Pucillo, Lara Gibellini, Anna Rubartelli, Qingyu Cheng, Luca Battistini, David Mirrer, David W. Galbraith, Giovanna Borsellino, Ryan R. Brinkman, Tim R. Mosmann, Laura G. Rico, Anita Dreher, Désirée Kunkel, Francesco Annunziato, Pia Kvistborg, Andrea Gori, Chiara Romagnani, Anat Shemer, Toshinori Nakayama, Francisco Sala-de-Oyanguren, Attila Tárnok, Alfonso Blanco, Anna Iannone, Giuseppe Matarese, Thomas Dörner, Virginia Litwin, Michael Lohoff, Petra Bacher, Jordi Petriz, Lorenzo Moretta, Götz R. A. Ehrhardt, Qianjun Zhang, Andrea Cavani, Barry Moran, Christian Maueröder, Immanuel Andrä, Dirk H. Busch, Joe Trotter, Timothy R D J Radstake, Stipan Jonjić, Fritz Melchers, Hans-Martin Jäck, Beatriz Jávega, Gerald Willimsky, Martin Büscher, Henrik E. Mei, Christine S. Falk, Zhigang Tian, Martin Herrmann, Alice Yue, Steffen Jung, Bart Everts, Frank A. Schildberg, John Bellamy Foster, Giovanna Lombardi, Milena Nasi, John P. Nolan, Todd A. Fehniger, Francesco Dieli, Steffen Schmitt, Andreas Dolf, A. Graham Pockley, Claudia Berek, Josef Spidlen, Megan K. Levings, Werner Müller, Baerbel Keller, René A. W. van Lier, Daisy Philips, Susanne Ziegler, Christian Kurts, Malgorzata J. Podolska, Jürgen Ruland, David Voehringer, Kenneth M. Murphy, Marlous van der Braber, Maria Dolores García-Godoy, Sabine Baumgart, Yi Zhao, Antonio Cosma, Falk Hiepe, Charlotte Esser, Pablo Engel, Marcello Veldhoen, Irmgard Förster, Amy E. Lovett-Racke, Günnur Deniz, Burkhard Ludewig, Esther Schimisky, Cristiano Scottà, Marcello Pinti, Jonathan Rebhahn, Regina Stark, Mario Clerici, Liping Yu, Shimon Sakaguchi, Derek Davies, Anna Katharina Simon, Lorenzo Cosmi, Gabriele Multhoff, Kamran Ghoreschi, Quirin Hammer, Henning Ulrich, J. Paul Robinson, Yvonne Samstag, Olivier Lantz, Hannes Stockinger, Xuetao Cao, Simon Fillatreau, David L. Haviland, Natalio Garbi, C. Neudörfl, Kingston H. G. Mills, Salvador Vento-Asturias, Christian Peth, Philip E. Boulais, Diether J. Recktenwald, Burkhard Becher, Tomas Kalina, Michael D. Leipold, Christoph Goettlinger, Gemma A. Foulds, Jane L. Grogan, Axel R. Schulz, James P. Di Santo, Matthias Schiemann, Michael D. Ward, Britta Engelhardt, Birgit Sawitzki, Annette Oxenius, Carl S. Goodyear, Salomé LeibundGut-Landmann, Wolfgang Beisker, Sue Chow, Carsten Watzl, Marie Follo, Erik Lubberts, Peter Wurst, Thomas Schüler, Andreas Diefenbach, Wolfgang Bauer, Hans-Dieter Volk, Luis E. Muñoz, Elmar Endl, Genny Del Zotto, José-Enrique O'Connor, Mairi McGrath, Paul S. Frenette, Dipartimento di Scienze Biomediche, Università degli Studi di Modena e Reggio Emilia (UNIMORE), Cell Biology, Klinik für Dermatologie, Venerologie und Allergologie, Department of Internal Medicine, Università degli Studi di Firenze = University of Florence [Firenze] (UNIFI)-DENOTHE Center, Neuroimmunology Unit, Santa Lucia Foundation (IRCCS), Inorganic Chemistry II, Universität Bayreuth, Caprotec Bioanalytics GmbH, International Occultation Timing Association European Section (IOTA ES), International Occultation Timing Association European Section, Institut der Leibniz-Gemeinschaft, Berlin, Fondazione Santa Lucia (IRCCS), Terry Fox Laboratory, BC Cancer Agency (BCCRC)-British Columbia Cancer Agency Research Centre, Department of Immunology, Chinese Academy of Medical Sciences, Fondazione Don Carlo Gnocchi, Immunologie des Maladies Virales et Autoimmunes (IMVA - U1184), Université Paris-Sud - Paris 11 (UP11)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de la Santé et de la Recherche Médicale (INSERM), Experimental Immunology Unit, Dept. of Oncology, DIBIT San Raffaele Scientific Institute, Département d'Immunologie - Department of Immunology, Institut Pasteur [Paris], Charité Hospital, Humboldt-Universität zu Berlin, Universitat de Barcelona (UB), Rheumatologie, Charité - UniversitätsMedizin = Charité - University Hospital [Berlin], Department of Internal Medicine I, University Hospital Schleswig-Holstein, Campus Kiel, Department of Histology and Embryology, University of Rijeka, Weizmann Institute of Science [Rehovot, Israël], Régulation des Infections Rétrovirales, Institutes of Molecular Medicine and Experimental Immunology, University of Bonn, Immunité et cancer (U932), Université Paris Descartes - Paris 5 (UPD5)-Institut Curie [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM), Singapore Immunology Network (SIgN), Biomedical Sciences Institute (BMSI), Institute of Virology [Zürich], College of Food Science and Technology [Shangai], Shanghai Ocean University, Institute for Medical Microbiology and Hygiene, University of Marburg, Centre for Transplantation, King's College London (MRC), Guy's Hospital [London], Erasmus University Medical Center [Rotterdam] (Erasmus MC), Unit of Clinical and Experimental Immunology, Humanitas Clinical and Research Institute, Heinrich Pette Institute [Hamburg], Institute of Translational Medicine, Department of Medicine Huddinge, Karolinska Institutet [Stockholm]-Karolinska University Hospital [Stockholm]-Lipid Laboratory, Università di Genova, Dipartimento di Medicina Sperimentale, Department of Environmental Microbiology, Helmholtz Zentrum für Umweltforschung = Helmholtz Centre for Environmental Research (UFZ), Experimental Immunology, Helmholtz Centre for Infection Research (HZI), Viral Immunobiology, Universität Zürich [Zürich] = University of Zurich (UZH)-Institute of Experimental Immunology [Zurich], Department of Radiation Oncology [Munich], Ludwig-Maximilians-Universität München (LMU), Department of Mathematics and Statistics, American University, William Harvey Research Institute, Barts and the London Medical School, Cytometry Laboratories and School of Veterinary Medicine, Purdue University [West Lafayette], Osaka University [Osaka], FACS and Array Core Facility, Johannes Gutenberg - Universität Mainz (JGU), Institute for Cognitive Science, University of Osnabrueck, Department of Molecular Immunology, Medizinische Universität Wien = Medical University of Vienna, Universität Leipzig [Leipzig], Institute of Immunology, School of Life Sciences-University of Science & Technology of China [Suzhou], Lymphopoïèse (Lymphopoïèse (UMR_1223 / U1223 / U-Pasteur_4)), Institut Pasteur [Paris]-Université Paris Diderot - Paris 7 (UPD7)-Institut National de la Santé et de la Recherche Médicale (INSERM), Institute for Immunology, Processus de Transfert et d'Echanges dans l'Environnement - EA 3819 (PROTEE), Université de Toulon (UTLN), Heinrich-Pette-Institut, Leibniz Institute for Experimental Virology, Enrico Lugli and Pratip K. Chattopadhyay were supported by grants from the Fondazione Cariplo (Grant Ricerca Biomedica 2012/0683), the Italian Ministry of Health (Bando Giovani Ricercatori GR-2011-02347324) and the European Union Marie Curie Career Integration Grant 322093 (all to E.L.). E.L. and P.K.C. are International Society for the Advancement of Cytometry (ISAC) Marylou Ingram scholars. Alice Yue and Ryan R. Brinkman were funded by Genome BC and NSERC. Klaus Warnatz received funding from the German Federal Ministry of Education and Research (BMBF 01EO1303) and the Deutsche Forschungsgemeinschaft (DECIDE, DFG WA 1597/4-1 and the TRR130). The Jung laboratory is supported by funds of the ERC and ISF. Henrik Mei is a 2017-2021 ISAC scholar. Antonio Cosma is supported by the French government program: 'Investissement d'avenir: Equipements d'Excellence' (EQUIPEX)-2010 FlowCyTech, Grant number: ANR-10-EQPX-02-01. Henrik Mei is supported by the Deutsche Forschungsgemeinschaft (DFG, grants Me3644/5-1 and TRR130/TP24)., Università degli Studi di Modena e Reggio Emilia = University of Modena and Reggio Emilia (UNIMORE), Università degli Studi di Firenze = University of Florence (UniFI)-DENOTHE Center, Institut Pasteur [Paris] (IP), Humboldt University Of Berlin, Universität Bonn = University of Bonn, Università degli studi di Genova = University of Genoa (UniGe), Johannes Gutenberg - Universität Mainz = Johannes Gutenberg University (JGU), Universität Leipzig, Institut Pasteur [Paris] (IP)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de la Santé et de la Recherche Médicale (INSERM), Obstetrics & Gynecology, Rheumatology, Pediatrics, Landsteiner Laboratory, Other departments, AII - Inflammatory diseases, Università di Modena e Reggio Emilia, DENOTHE Center-University of Florence, Santa Lucia Foundation ( IRCCS ), International Occultation Timing Association European Section ( IOTA ES ), Fondazione Santa Lucia ( IRCCS ), BC Cancer Agency ( BCCRC ) -British Columbia Cancer Agency Research Centre, Fondazione don Carlo Gnocchi, Fondazione IRCCS, Immunologie des Maladies Virales et Autoimmunes ( IMVA - U1184 ), Université Paris-Sud - Paris 11 ( UP11 ) -Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Institut National de la Santé et de la Recherche Médicale ( INSERM ), Département d'Immunologie, Humboldt Universität zu Berlin, Universitat de Barcelona ( UB ), Charité, Weizmann Institute of Science, Université de Bonn, Immunité et cancer ( U932 ), Université Paris Descartes - Paris 5 ( UPD5 ) -Institut Curie-Institut National de la Santé et de la Recherche Médicale ( INSERM ), Singapore Immunology Network ( SIgN ), Agency for Science Technology and Research, College of Food Science and Technology, Centre for Transplantation, King's College London ( MRC ), Erasmus MC University Medical Center, Helmholtz Centre for Environmental Research ( UFZ ), Helmholtz Centre for Infection Research ( HZI ), University of Zürich [Zürich] ( UZH ) -Institute of Experimental Immunology [Zurich], Ludwig-Maximilians-Universität München, Johannes Gutenberg - Universität Mainz ( JGU ), Medical University of Vienna, Lymphopoïèse, Institut Pasteur [Paris]-Institut National de la Santé et de la Recherche Médicale ( INSERM ), Johannes Gutenberg - University of Mainz ( JGU ), Processus de Transfert et d'Echanges dans l'Environnement - EA 3819 ( PROTEE ), Université de Toulon ( UTLN ), Universita degli studi di Genova, Cossarizza, Andrea, Chang, Hyun-Dong, Radbruch, Andrea, Akdis, Mübeccel, Andrä, Immanuel, Annunziato, Francesco, Bacher, Petra, Barnaba, Vincenzo, Battistini, Luca, Bauer, Wolfgang M., Baumgart, Sabine, Becher, Burkhard, Beisker, Wolfgang, Berek, Claudia, Blanco, Alfonso, Borsellino, Giovanna, Boulais, Philip E., Brinkman, Ryan R., Büscher, Martin, Busch, Dirk H., Bushnell, Timothy P., Cao, Xuetao, Cavani, Andrea, Chattopadhyay, Pratip K., Cheng, Qingyu, Chow, Sue, Clerici, Mario, Cooke, Anne, Cosma, Antonio, Cosmi, Lorenzo, Cumano, Ana, Dang, Van Duc, Davies, Derek, De Biasi, Sara, Del Zotto, Genny, Della Bella, Silvia, Dellabona, Paolo, Deniz, Günnur, Dessing, Mark, Diefenbach, Andrea, Di Santo, Jame, Dieli, Francesco, Dolf, Andrea, Donnenberg, Vera S., Dörner, Thoma, Ehrhardt, Götz R. A., Endl, Elmar, Engel, Pablo, Engelhardt, Britta, Esser, Charlotte, Everts, Bart, Dreher, Anita, Falk, Christine S., Fehniger, Todd A., Filby, Andrew, Fillatreau, Simon, Follo, Marie, Förster, Irmgard, Foster, John, Foulds, Gemma A., Frenette, Paul S., Galbraith, David, Garbi, Natalio, García-Godoy, Maria Dolore, Geginat, Jen, Ghoreschi, Kamran, Gibellini, Lara, Goettlinger, Christoph, Goodyear, Carl S., Gori, Andrea, Grogan, Jane, Gross, Mor, Grützkau, Andrea, Grummitt, Daryl, Hahn, Jona, Hammer, Quirin, Hauser, Anja E., Haviland, David L., Hedley, David, Herrera, Guadalupe, Herrmann, Martin, Hiepe, Falk, Holland, Tristan, Hombrink, Pleun, Houston, Jessica P., Hoyer, Bimba F., Huang, Bo, Hunter, Christopher A., Iannone, Anna, Jäck, Hans-Martin, Jávega, Beatriz, Jonjic, Stipan, Juelke, Kerstin, Jung, Steffen, Kaiser, Toralf, Kalina, Toma, Keller, Baerbel, Khan, Srijit, Kienhöfer, Deborah, Kroneis, Thoma, Kunkel, Désirée, Kurts, Christian, Kvistborg, Pia, Lannigan, Joanne, Lantz, Olivier, Larbi, Ani, LeibundGut-Landmann, Salome, Leipold, Michael D., Levings, Megan K., Litwin, Virginia, Liu, Yanling, Lohoff, Michael, Lombardi, Giovanna, Lopez, Lilly, Lovett-Racke, Amy, Lubberts, Erik, Ludewig, Burkhard, Lugli, Enrico, Maecker, Holden T., Martrus, Glòria, Matarese, Giuseppe, Maueröder, Christian, Mcgrath, Mairi, Mcinnes, Iain, Mei, Henrik E., Melchers, Fritz, Melzer, Susanne, Mielenz, Dirk, Mills, Kingston, Mirrer, David, Mjösberg, Jenny, Moore, Jonni, Moran, Barry, Moretta, Alessandro, Moretta, Lorenzo, Mosmann, Tim R., Müller, Susann, Müller, Werner, Münz, Christian, Multhoff, Gabriele, Munoz, Luis Enrique, Murphy, Kenneth M., Nakayama, Toshinori, Nasi, Milena, Neudörfl, Christine, Nolan, John, Nourshargh, Sussan, O'Connor, José-Enrique, Ouyang, Wenjun, Oxenius, Annette, Palankar, Raghav, Panse, Isabel, Peterson, Pärt, Peth, Christian, Petriz, Jordi, Philips, Daisy, Pickl, Winfried, Piconese, Silvia, Pinti, Marcello, Pockley, A. Graham, Podolska, Malgorzata Justyna, Pucillo, Carlo, Quataert, Sally A., Radstake, Timothy R. D. J., Rajwa, Bartek, Rebhahn, Jonathan A., Recktenwald, Diether, Remmerswaal, Ester B. M., Rezvani, Katy, Rico, Laura G., Robinson, J. Paul, Romagnani, Chiara, Rubartelli, Anna, Ruckert, Beate, Ruland, Jürgen, Sakaguchi, Shimon, Sala-de-Oyanguren, Francisco, Samstag, Yvonne, Sanderson, Sharon, Sawitzki, Birgit, Scheffold, Alexander, Schiemann, Matthia, Schildberg, Frank, Schimisky, Esther, Schmid, Stephan A., Schmitt, Steffen, Schober, Kilian, Schüler, Thoma, Schulz, Axel Ronald, Schumacher, Ton, Scotta, Cristiano, Shankey, T. Vincent, Shemer, Anat, Simon, Anna-Katharina, Spidlen, Josef, Stall, Alan M., Stark, Regina, Stehle, Christina, Stein, Merle, Steinmetz, Tobit, Stockinger, Hanne, Takahama, Yousuke, Tarnok, Attila, Tian, Zhigang, Toldi, Gergely, Tornack, Julia, Traggiai, Elisabetta, Trotter, Joe, Ulrich, Henning, van der Braber, Marlou, van Lier, René A. W., Veldhoen, Marcello, Vento-Asturias, Salvador, Vieira, Paulo, Voehringer, David, Volk, Hans-Dieter, von Volkmann, Konrad, Waisman, Ari, Walker, Rachael, Ward, Michael D., Warnatz, Klau, Warth, Sarah, Watson, James V., Watzl, Carsten, Wegener, Leonie, Wiedemann, Annika, Wienands, Jürgen, Willimsky, Gerald, Wing, Jame, Wurst, Peter, Yu, Liping, Yue, Alice, Zhang, Qianjun, Zhao, Yi, Ziegler, Susanne, Zimmermann, Jakob, Cossarizza, A., Chang, H., Radbruch, A., Akdis, M., Andrã¤, I., Annunziato, F., Bacher, P., Barnaba, V., Battistini, L., Bauer, W., Baumgart, S., Becher, B., Beisker, W., Berek, C., Blanco, A., Borsellino, G., Boulais, P., Brinkman, R., Bã¼scher, M., Busch, D., Bushnell, T., Cao, X., Cavani, A., Chattopadhyay, P., Cheng, Q., Chow, S., Clerici, M., Cooke, A., Cosma, A., Cosmi, L., Cumano, A., Dang, V., Davies, D., De Biasi, S., Del Zotto, G., Della Bella, S., Dellabona, P., Deniz, G., Dessing, M., Diefenbach, A., Di Santo, J., Dieli, F., Dolf, A., Donnenberg, V., Dã¶rner, T., Ehrhardt, G., Endl, E., Engel, P., Engelhardt, B., Esser, C., Everts, B., Dreher, A., Falk, C., Fehniger, T., Filby, A., Fillatreau, S., Follo, M., Fã¶rster, I., Foster, J., Foulds, G., Frenette, P., Galbraith, D., Garbi, N., García-Godoy, M., Geginat, J., Ghoreschi, K., Gibellini, L., Goettlinger, C., Goodyear, C., Gori, A., Grogan, J., Gross, M., Grã¼tzkau, A., Grummitt, D., Hahn, J., Hammer, Q., Hauser, A., Haviland, D., Hedley, D., Herrera, G., Herrmann, M., Hiepe, F., Holland, T., Hombrink, P., Houston, J., Hoyer, B., Huang, B., Hunter, C., Iannone, A., Jã¤ck, H., Jã¡vega, B., Jonjic, S., Juelke, K., Jung, S., Kaiser, T., Kalina, T., Keller, B., Khan, S., Kienhã¶fer, D., Kroneis, T., Kunkel, D., Kurts, C., Kvistborg, P., Lannigan, J., Lantz, O., Larbi, A., LeibundGut-Landmann, S., Leipold, M., Levings, M., Litwin, V., Liu, Y., Lohoff, M., Lombardi, G., Lopez, L., Lovett-Racke, A., Lubberts, E., Ludewig, B., Lugli, E., Maecker, H., Martrus, G., Matarese, G., Mauerã¶der, C., Mcgrath, M., Mcinnes, I., Mei, H., Melchers, F., Melzer, S., Mielenz, D., Mills, K., Mirrer, D., Mjã¶sberg, J., Moore, J., Moran, B., Moretta, A., Moretta, L., Mosmann, T., Mã¼ller, S., Mã¼ller, W., Mã¼nz, C., Multhoff, G., Munoz, L., Murphy, K., Nakayama, T., Nasi, M., Neudã¶rfl, C., Nolan, J., Nourshargh, S., O'Connor, J., Ouyang, W., Oxenius, A., Palankar, R., Panse, I., Peterson, P., Peth, C., Petriz, J., Philips, D., Pickl, W., Piconese, S., Pinti, M., Pockley, A., Podolska, M., Pucillo, C., Quataert, S., Radstake, T., Rajwa, B., Rebhahn, J., Recktenwald, D., Remmerswaal, E., Rezvani, K., Rico, L., Robinson, J., Romagnani, C., Rubartelli, A., Ruckert, B., Ruland, J., Sakaguchi, S., Sala-de-Oyanguren, F., Samstag, Y., Sanderson, S., Sawitzki, B., Scheffold, A., Schiemann, M., Schildberg, F., Schimisky, E., Schmid, S., Schmitt, S., Schober, K., Schã¼ler, T., Schulz, A., Schumacher, T., Scotta, C., Shankey, T., Shemer, A., Simon, A., Spidlen, J., Stall, A., Stark, R., Stehle, C., Stein, M., Steinmetz, T., Stockinger, H., Takahama, Y., Tarnok, A., Tian, Z., Toldi, G., Tornack, J., Traggiai, E., Trotter, J., Ulrich, H., van der Braber, M., van Lier, R., Veldhoen, M., Vento-Asturias, S., Vieira, P., Voehringer, D., Volk, H., von Volkmann, K., Waisman, A., Walker, R., Ward, M., Warnatz, K., Warth, S., Watson, J., Watzl, C., Wegener, L., Wiedemann, A., Wienands, J., Willimsky, G., Wing, J., Wurst, P., Liping, Y., Yue, A., Zhang, Q., Zhao, Y., Ziegler, S., and Zimmermann, J.

Subjects
0301 basic medicine, T-Lymphocytes, Cell Separation, T cell precursors, 0302 clinical medicine, Immunophenotyping, Human lymphopoiesis, [ SDV.IMM ] Life Sciences [q-bio]/Immunology, Immunology and Allergy, Non-U.S. Gov't, Immunologic Technique, medicine.diagnostic_test, Research Support, Non-U.S. Gov't, virus diseases, hemic and immune systems, False Positive Reaction, Cell sorting, Flow Cytometry, natural killer and innate lymphoid cells differentiation, 3. Good health, Research Design, [SDV.IMM]Life Sciences [q-bio]/Immunology, Human, Quality Control, medicine.drug_class, Immunology, Animals, Cell Proliferation, DNA, False Positive Reactions, Humans, RNA, Software, Guidelines as Topic, Immunologic Techniques, chemical and pharmacologic phenomena, Computational biology, Biology, Monoclonal antibody, Research Support, Article, Flow cytometry, N.I.H, 03 medical and health sciences, Immune system, Research Support, N.I.H., Extramural, medicine, early lymphoid progenitors, Journal Article, Mass cytometry, IMUNOLOGIA, Animal, Extramural, B cell ontogeny, 030104 developmental biology, T-Lymphocyte, Cytometry, 030215 immunology
Abstract

The marriage between immunology and cytometry is one of the most stable and productive in the recent history of science. A rapid search in PubMed shows that, as of July 2017, using “flow cytometry immunology” as a search term yields more than 68 000 articles, the first of which, interestingly, is not about lymphocytes. It might be stated that, after a short engagement, the exchange of the wedding rings between immunology and cytometry officially occurred when the idea to link fluorochromes to monoclonal antibodies came about. After this, recognizing different types of cells became relatively easy and feasible not only by using a simple fluorescence microscope, but also by a complex and sometimes esoteric instrument, the flow cytometer that is able to count hundreds of cells in a single second, and can provide repetitive results in a tireless manner. Given this, the possibility to analyse immune phenotypes in a variety of clinical conditions has changed the use of the flow cytometer, which was incidentally invented in the late 1960s to measure cellular DNA by using intercalating dyes, such as ethidium bromide. The epidemics of HIV/AIDS in the 1980s then gave a dramatic impulse to the technology of counting specific cells, since it became clear that the quantification of the number of peripheral blood CD4+ T cells was crucial to follow the course of the infection, and eventually for monitoring the therapy. As a consequence, the development of flow cytometers that had to be easy-to-use in all clinical laboratories helped to widely disseminate this technology. Nowadays, it is rare to find an immunological paper or read a conference abstract in which the authors did not use flow cytometry as the main tool to dissect the immune system and identify its fine and complex functions. Of note, recent developments have created the sophisticated technology of mass cytometry, which is able to simultaneously identify dozens of molecules at the single cell level and allows us to better understand the complexity and beauty of the immune system.

Published
2017
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21. Metabolic rewiring controlled by HIF-1α tunes IgA-producing B-cell differentiation and intestinal inflammation.

Author

Meng X, Asadi-Asadabad S, Cao S, Song R, Lin Z, Safhi M, Qin Y, Tcheumi Tactoum E, Taudte V, Ekici A, Mielenz D, Wirtz S, Schett G, and Bozec A

Subjects
Animals, Mice, Inflammation pathology, Inflammation immunology, Immunoglobulin Class Switching, Mice, Knockout, Intestines pathology, Intestines immunology, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Immunoglobulin A metabolism, B-Lymphocytes immunology, B-Lymphocytes metabolism, B-Lymphocytes drug effects, Colitis pathology, Colitis immunology, Colitis chemically induced, Colitis metabolism, Cell Differentiation drug effects, Mice, Inbred C57BL, Dextran Sulfate
Abstract

Germinal centers where B cells undergo clonal expansion and antibody affinity maturation are hypoxic microenvironments. However, the function of hypoxia-inducible factor (HIF)-1α in immunoglobulin production remains incompletely characterized. Here, we demonstrated that B cells lacking HIF-1α exhibited significantly lower glycolytic metabolism and impaired IgA production. Loss of HIF-1α in B cells affects IgA-producing B-cell differentiation and exacerbates dextran sodium sulfate (DSS)-induced colitis. Conversely, promoting HIF-1α stabilization via a PHD inhibitor roxadustat enhances IgA class switching and alleviates intestinal inflammation. Mechanistically, HIF-1α facilitates IgA class switching through acetyl-coenzyme A (acetyl-CoA) accumulation, which is essential for histone H3K27 acetylation at the Sα region. Consequently, supplementation with acetyl-CoA improved defective IgA production in Hif1a-deficient B cells and limited experimental colitis. Collectively, these findings highlight the critical importance of HIF-1α in IgA class switching and the potential for targeting the HIF-1α-dependent metabolic‒epigenetic axis to treat inflammatory bowel diseases and other inflammatory disorders., Competing Interests: Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published
2025
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22. Polyol pathway-generated fructose is indispensable for growth and survival of non-small cell lung cancer.

Author

Schwab A, Siddiqui MA, Ramesh V, Gollavilli PN, Turtos AM, Møller SS, Pinna L, Havelund JF, Rømer AMA, Ersan PG, Parma B, Marschall S, Dettmer K, Alhusayan M, Bertoglio P, Querzoli G, Mielenz D, Sahin O, Færgeman NJ, Asangani IA, and Ceppi P

Abstract

Despite recent treatment advances, non-small cell lung cancer (NSCLC) remains one of the leading causes of cancer-related deaths worldwide, and therefore it necessitates the exploration of new therapy options. One commonly shared feature of malignant cells is their ability to hijack metabolic pathways to confer survival or proliferation. In this study, we highlight the importance of the polyol pathway (PP) in NSCLC metabolism. This pathway is solely responsible for metabolizing glucose to fructose based on the enzymatic activity of aldose reductase (AKR1B1) and sorbitol dehydrogenase (SORD). Via genetic and pharmacological manipulations, we reveal that PP activity is indispensable for NSCLC growth and survival in vitro and in murine xenograft models. Mechanistically, PP deficiency provokes multifactorial deficits, ranging from energetic breakdown and DNA damage, that ultimately trigger the induction of apoptosis. At the molecular level, this process is driven by pro-apoptotic JNK signaling and concomitant upregulation of the transcription factors c-Jun and ATF3. Moreover, we show that fructose, the PP end-product, as well as other non-glycolytic hexoses confer survival to cancer cells and resistance against chemotherapy via sustained NF-κB activity as well as an oxidative switch in metabolism. Given the detrimental consequence of PP gene targeting on growth and survival, we propose PP pathway interference as a viable therapeutic approach against NSCLC., Competing Interests: Competing interests: OS is the co-founder and manager of OncoCube Therapeutics LLC, founder, and president of LoxiGen, and the member of scientific advisory board of A2A Pharmaceuticals Inc. The other authors declare no conflict of interests., (© 2024. The Author(s).)

Published
2024
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23. Systematic mapping of mitochondrial calcium uniporter channel (MCUC)-mediated calcium signaling networks.

Author

Delgado de la Herran H, Vecellio Reane D, Cheng Y, Katona M, Hosp F, Greotti E, Wettmarshausen J, Patron M, Mohr H, Prudente de Mello N, Chudenkova M, Gorza M, Walia S, Feng MS, Leimpek A, Mielenz D, Pellegata NS, Langer T, Hajnóczky G, Mann M, Murgia M, and Perocchi F

Subjects
Humans, Calcium metabolism, Calcium-Binding Proteins metabolism, Calcium-Binding Proteins genetics, HEK293 Cells, Animals, HeLa Cells, Cation Transport Proteins, Mitochondrial Membrane Transport Proteins, Calcium Channels metabolism, Calcium Channels genetics, Calcium Signaling, Mitochondria metabolism
Abstract

The mitochondrial calcium uniporter channel (MCUC) mediates mitochondrial calcium entry, regulating energy metabolism and cell death. Although several MCUC components have been identified, the molecular basis of mitochondrial calcium signaling networks and their remodeling upon changes in uniporter activity have not been assessed. Here, we map the MCUC interactome under resting conditions and upon chronic loss or gain of mitochondrial calcium uptake. We identify 89 high-confidence interactors that link MCUC to several mitochondrial complexes and pathways, half of which are associated with human disease. As a proof-of-concept, we validate the mitochondrial intermembrane space protein EFHD1 as a binding partner of the MCUC subunits MCU, EMRE, and MCUB. We further show a MICU1-dependent inhibitory effect of EFHD1 on calcium uptake. Next, we systematically survey compensatory mechanisms and functional consequences of mitochondrial calcium dyshomeostasis by analyzing the MCU interactome upon EMRE, MCUB, MICU1, or MICU2 knockdown. While silencing EMRE reduces MCU interconnectivity, MCUB loss-of-function leads to a wider interaction network. Our study provides a comprehensive and high-confidence resource to gain insights into players and mechanisms regulating mitochondrial calcium signaling and their relevance in human diseases., (© 2024. The Author(s).)

Published
2024
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24. B-cell depletion in autoimmune diseases.

Author

Schett G, Nagy G, Krönke G, and Mielenz D

Subjects
Humans, Antibodies, Monoclonal therapeutic use, Autoimmune Diseases immunology, B-Lymphocytes immunology, Lymphocyte Depletion methods
Abstract

B cells have a pivotal function in the pathogenesis of autoimmune diseases, such as rheumatoid arthritis, multiple sclerosis and systemic lupus erythematosus. In autoimmune disease, B cells orchestrate antigen presentation, cytokine production and autoantibody production, the latter via their differentiation into antibody-secreting plasmablasts and plasma cells. This article addresses the current therapeutic strategies to deplete B cells in order to ameliorate or potentially even cure autoimmune disease. It addresses the main target antigens in the B-cell lineage that are used for therapeutic approaches. Furthermore, it summarises the current evidence for successful treatment of autoimmune disease with monoclonal antibodies targeting B cells and the limitations and challenges of these approaches. Finally, the concept of deep B-cell depletion and immunological reset by chimeric antigen receptor T cells is discussed, as well as the lessons from this approach for better understanding the role of B cells in autoimmune disease., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2024. No commercial re-use. See rights and permissions. Published by BMJ on behalf of EULAR.)

Published
2024
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25. Metabolic profiling of single cells by exploiting NADH and FAD fluorescence via flow cytometry.

Author

Abir AH, Weckwerth L, Wilhelm A, Thomas J, Reichardt CM, Munoz L, Völkl S, Appelt U, Mroz M, Niesner R, Hauser A, Sophie Fischer R, Pracht K, Jäck HM, Schett G, Krönke G, and Mielenz D

Subjects
Humans, Mitochondria metabolism, T-Lymphocytes metabolism, Oxidation-Reduction, Fluorescence, Arthritis, Rheumatoid metabolism, Glycolysis, Oxidative Phosphorylation, Female, Male, Glucose metabolism, Flow Cytometry methods, NAD metabolism, Flavin-Adenine Dinucleotide metabolism, Single-Cell Analysis methods, B-Lymphocytes metabolism
Abstract

Objective: The metabolism of different cells within the same microenvironment can differ and dictate physiological or pathological adaptions. Current single-cell analysis methods of metabolism are not label-free., Methods: The study introduces a label-free, live-cell analysis method assessing endogenous fluorescence of NAD(P)H and FAD in surface-stained cells by flow cytometry., Results: OxPhos inhibition, mitochondrial uncoupling, glucose exposure, genetic inactivation of glucose uptake and mitochondrial respiration alter the optical redox ratios of FAD and NAD(P)H as measured by flow cytometry. Those alterations correlate strongly with measurements obtained by extracellular flux analysis. Consequently, metabolically distinct live B-cell populations can be resolved, showing that human memory B-cells from peripheral blood exhibit a higher glycolytic flexibility than naïve B cells. Moreover, the comparison of blood-derived B- and T-lymphocytes from healthy donors and rheumatoid arthritis patients unleashes rheumatoid arthritis-associated metabolic traits in human naïve and memory B-lymphocytes., Conclusions: Taken together, these data show that the optical redox ratio can depict metabolic differences in distinct cell populations by flow cytometry., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published
2024
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26. Identification of TFG- and Autophagy-Regulated Proteins and Glycerophospholipids in B Cells.

Author

Steinmetz TD, Thomas J, Reimann L, Himmelreich AK, Schulz SR, Golombek F, Castiglione K, Jäck HM, Brodesser S, Warscheid B, and Mielenz D

Subjects
Animals, Mice, Lipid Metabolism, Lipidomics methods, Mitochondria metabolism, Proteomics methods, Autophagy, B-Lymphocytes metabolism, Glycerophospholipids metabolism, Lysosomes metabolism
Abstract

Autophagy supervises the proteostasis and survival of B lymphocytic cells. Trk-fused gene (TFG) promotes autophagosome-lysosome flux in murine CH12 B cells, as well as their survival. Hence, quantitative proteomics of CH12 tfg KO and WT B cells in combination with lysosomal inhibition should identify proteins that are prone to lysosomal degradation and contribute to autophagy and B cell survival. Lysosome inhibition via NH 4 Cl unexpectedly reduced a number of proteins but increased a large cluster of translational, ribosomal, and mitochondrial proteins, independent of TFG. Hence, we propose a role for lysosomes in ribophagy in B cells. TFG-regulated proteins include CD74, BCL10, or the immunoglobulin JCHAIN. Gene ontology (GO) analysis reveals that proteins regulated by TFG alone, or in concert with lysosomes, localize to mitochondria and membrane-bound organelles. Likewise, TFG regulates the abundance of metabolic enzymes, such as ALDOC and the fatty acid-activating enzyme ACOT9. To test consequently for a function of TFG in lipid metabolism, we performed shotgun lipidomics of glycerophospholipids. Total phosphatidylglycerol is more abundant in CH12 tfg KO B cells. Several glycerophospholipid species with similar acyl side chains, such as 36:2 phosphatidylethanolamine and 36:2 phosphatidylinositol, show a dysequilibrium. We suggest a role for TFG in lipid homeostasis, mitochondrial functions, translation, and metabolism in B cells.

Published
2024
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27. ATP citrate lyase (ACLY)-dependent immunometabolism in mucosal T cells drives experimental colitis in vivo.

Author

Schulz-Kuhnt A, Rühle K, Javidmehr A, Döbrönti M, Biwank J, Knittel S, Neidlinger P, Leupold J, Liu LJ, Dedden M, Taudte RV, Gessner A, Fromm MF, Mielenz D, Kreiss L, Waldner MJ, Schürmann S, Friedrich O, Dietel B, López-Posadas R, Plattner C, Zundler S, Becker C, Atreya R, Neurath MF, and Atreya I

Subjects
Humans, Animals, ATP Citrate (pro-S)-Lyase metabolism, CD8-Positive T-Lymphocytes metabolism, Inflammation metabolism, Butyrates, Intestinal Mucosa metabolism, Dextran Sulfate, Disease Models, Animal, Intraepithelial Lymphocytes metabolism, Colitis metabolism, Inflammatory Bowel Diseases
Abstract

Objective: Mucosal T cells play a major role in inflammatory bowel disease (IBD). However, their immunometabolism during intestinal inflammation is poorly understood. Due to its impact on cellular metabolism and proinflammatory immune cell function, we here focus on the enzyme ATP citrate lyase (ACLY) in mucosal T cell immunometabolism and its relevance for IBD., Design: ACLY expression and its immunometabolic impact on colitogenic T cell function were analysed in mucosal T cells from patients with IBD and in two experimental colitis models., Results: ACLY was markedly expressed in colon tissue under steady-state conditions but was significantly downregulated in lamina propria mononuclear cells in experimental dextran sodium sulfate-induced colitis and in CD4 + and to a lesser extent in CD8 + T cells infiltrating the inflamed gut in patients with IBD. ACLY-deficient CD4 + T cells showed an impaired capacity to induce intestinal inflammation in a transfer colitis model as compared with wild-type T cells. Assessment of T cell immunometabolism revealed that ACLY deficiency dampened the production of IBD-relevant cytokines and impaired glycolytic ATP production but enriched metabolites involved in the biosynthesis of phospholipids and phosphatidylcholine. Interestingly, the short-chain fatty acid butyrate was identified as a potent suppressor of ACLY expression in T cells, while IL-36α and resolvin E1 induced ACLY levels. In a translational approach, in vivo administration of the butyrate prodrug tributyrin downregulated mucosal infiltration of ACLY high CD4 + T cells and ameliorated chronic colitis., Conclusion: ACLY controls mucosal T cell immunometabolism and experimental colitis. Therapeutic modulation of ACLY expression in T cells emerges as a novel strategy to promote the resolution of intestinal inflammation., Competing Interests: Competing interests: MFN has served as an advisor for Pentax, Giuliani, MSD, Abbvie, Janssen, Takeda and Boehringer. Moreover, MFN serves as an associated editor of the journal Gut. The remaining authors disclose no conflicts., (© Author(s) (or their employer(s)) 2024. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2024
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28. GLUT1-mediated glucose import in B cells is critical for anaplerotic balance and humoral immunity.

Author

Bierling TEH, Gumann A, Ottmann SR, Schulz SR, Weckwerth L, Thomas J, Gessner A, Wichert M, Kuwert F, Rost F, Hauke M, Freudenreich T, Mielenz D, Jäck HM, and Pracht K

Subjects
Animals, Mice, Glucose, Glucose Transporter Type 1, Plasma Cells, B-Lymphocytes, Immunity, Humoral
Abstract

Glucose uptake increases during B cell activation and antibody-secreting cell (ASC) differentiation, but conflicting findings prevent a clear metabolic profile at different stages of B cell activation. Deletion of the glucose transporter type 1 (GLUT1) gene in mature B cells (GLUT1-cKO) results in normal B cell development, but it reduces germinal center B cells and ASCs. GLUT1-cKO mice show decreased antigen-specific antibody titers after vaccination. In vitro, GLUT1-deficient B cells show impaired activation, whereas established plasmablasts abolish glycolysis, relying on mitochondrial activity and fatty acids. Transcriptomics and metabolomics reveal an altered anaplerotic balance in GLUT1-deficient ASCs. Despite attempts to compensate for glucose deprivation by increasing mitochondrial mass and gene expression associated with glycolysis, the tricarboxylic acid cycle, and hexosamine synthesis, GLUT1-deficient ASCs lack the metabolites for energy production and mitochondrial respiration, limiting protein synthesis. We identify GLUT1 as a critical metabolic player defining the germinal center response and humoral immunity., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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29. Non-apoptotic FAS signaling controls mTOR activation and extrafollicular maturation in human B cells.

Author

Staniek J, Kalina T, Andrieux G, Boerries M, Janowska I, Fuentes M, Díez P, Bakardjieva M, Stancikova J, Raabe J, Neumann J, Schwenk S, Arpesella L, Stuchly J, Benes V, García Valiente R, Fernández García J, Carsetti R, Piano Mortari E, Catala A, de la Calle O, Sogkas G, Neven B, Rieux-Laucat F, Magerus A, Neth O, Olbrich P, Voll RE, Alsina L, Allende LM, Gonzalez-Granado LI, Böhler C, Thiel J, Venhoff N, Lorenzetti R, Warnatz K, Unger S, Seidl M, Mielenz D, Schneider P, Ehl S, Rensing-Ehl A, Smulski CR, and Rizzi M

Subjects
Humans, Apoptosis genetics, Germinal Center, TOR Serine-Threonine Kinases, Hypergammaglobulinemia, Lymphoproliferative Disorders genetics
Abstract

Defective FAS (CD95/Apo-1/TNFRSF6) signaling causes autoimmune lymphoproliferative syndrome (ALPS). Hypergammaglobulinemia is a common feature in ALPS with FAS mutations (ALPS-FAS), but paradoxically, fewer conventional memory cells differentiate from FAS-expressing germinal center (GC) B cells. Resistance to FAS-induced apoptosis does not explain this phenotype. We tested the hypothesis that defective non-apoptotic FAS signaling may contribute to impaired B cell differentiation in ALPS. We analyzed secondary lymphoid organs of patients with ALPS-FAS and found low numbers of memory B cells, fewer GC B cells, and an expanded extrafollicular (EF) B cell response. Enhanced mTOR activity has been shown to favor EF versus GC fate decision, and we found enhanced PI3K/mTOR and BCR signaling in ALPS-FAS splenic B cells. Modeling initial T-dependent B cell activation with CD40L in vitro, we showed that FAS competent cells with transient FAS ligation showed specifically decreased mTOR axis activation without apoptosis. Mechanistically, transient FAS engagement with involvement of caspase-8 induced nuclear exclusion of PTEN, leading to mTOR inhibition. In addition, FASL-dependent PTEN nuclear exclusion and mTOR modulation were defective in patients with ALPS-FAS. In the early phase of activation, FAS stimulation promoted expression of genes related to GC initiation at the expense of processes related to the EF response. Hence, our data suggest that non-apoptotic FAS signaling acts as molecular switch between EF versus GC fate decisions via regulation of the mTOR axis and transcription. The defect of this modulatory circuit may explain the observed hypergammaglobulinemia and low memory B cell numbers in ALPS.

Published
2024
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30. The microRNA processing subunit DGCR8 is required for a T cell-dependent germinal center response.

Author

Daum P, Ottmann SR, Meinzinger J, Schulz SR, Côrte-Real J, Hauke M, Roth E, Schuh W, Mielenz D, Jäck HM, and Pracht K

Subjects
Mice, Animals, RNA-Binding Proteins genetics, RNA-Binding Proteins metabolism, T-Lymphocytes metabolism, Germinal Center metabolism, Immunoglobulin G metabolism, MicroRNAs genetics, MicroRNAs metabolism
Abstract

We have previously shown that the microRNA (miRNA) processor complex consisting of the RNAse Drosha and the DiGeorge Critical Region (DGCR) 8 protein is essential for B cell maturation. To determine whether miRNA processing is required to initiate T cell-mediated antibody responses, we deleted DGCR8 in maturing B2 cells by crossing a mouse with loxP-flanked DGCR8 alleles with a CD23-Cre mouse. As expected, non-immunized mice showed reduced numbers of mature B2 cells and IgG-secreting cells and diminished serum IgG titers. In accordance, germinal centers and antigen-specific IgG-secreting cells were absent in mice immunized with T-dependent antigens. Therefore, DGCR8 is required to mount an efficient T-dependent antibody response. However, DGCR8 deletion in B1 cells was incomplete, resulting in unaltered B1 cell numbers and normal IgM and IgA titers in DGCR8-knock-out mice. Therefore, this mouse model could be used to analyze B1 responses in the absence of functional B2 cells., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Daum, Ottmann, Meinzinger, Schulz, Côrte-Real, Hauke, Roth, Schuh, Mielenz, Jäck and Pracht.)

Published
2022
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31. A newly identified secreted larval antigen elicits basophil-dependent protective immunity against N. brasiliensis infection.

Author

Thuma N, Döhler D, Mielenz D, Sticht H, Radtke D, Reimann L, Warscheid B, and Voehringer D

Subjects
Ancylostomatoidea, Animals, Humans, Immunoglobulin E, Immunoglobulin G, Larva, Mice, Nippostrongylus, Antigens, Helminth, Basophils
Abstract

Hookworms infect more that 400 million people and cause significant socio-economic burden on endemic countries. The lack of efficient vaccines and the emergence of anthelminthic drug resistance are of major concern. Free-living hookworm larvae infect their hosts via the skin and live as adult worms in the small intestine where they feed on host tissue and blood. Excretory/secretory (E/S) products, released by helminths as they migrate through their host, are thought to play a key role in facilitating infection and successful establishment of parasitism. However, E/S products can also elicit protective immune responses that might be harnessed for vaccine development. By performing Western blots with serum of Nippostrongylus brasiliensis (Nb) infected mice as a model for human hookworm infection, we identified a largely overlapping set of IgG1- and IgE-reactive antigens in E/S from infective L3 stage larvae. Mass spectrometry analysis led to the identification of a new protein family with 6 paralogues in the Nb genome which we termed Nb-LSA1 for " Nippostrongylus brasiliensis larval secreted protein 1". The recombinantly expressed 17 kDa family member Nb-LSA1a was recognized by antibodies in the serum of Nb immune mice. Immunization of mice with Nb-LSA1a in alum elicited a strong IgG1 response but no detectable antigen-specific IgE. Most importantly, immunized mice were largely protected against a challenge Nb infection. This effect was dependent on the presence of basophils and occurred before the parasites reached the intestine. Therefore, basophils appear to play a critical role for rapid control of infection with L3 stage larvae in mice immunized with a single secreted larval protein. A better understanding of basophil-mediated protective immunity and identification of potent larval antigens of human hookworms could help to develop promising vaccination strategies., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Thuma, Döhler, Mielenz, Sticht, Radtke, Reimann, Warscheid and Voehringer.)

Published
2022
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32. Mitochondrial respiration in B lymphocytes is essential for humoral immunity by controlling the flux of the TCA cycle.

Author

Urbanczyk S, Baris OR, Hofmann J, Taudte RV, Guegen N, Golombek F, Castiglione K, Meng X, Bozec A, Thomas J, Weckwerth L, Mougiakakos D, Schulz SR, Schuh W, Schlötzer-Schrehardt U, Steinmetz TD, Brodesser S, Wiesner RJ, and Mielenz D

Subjects
Animals, B-Lymphocytes, DNA, Mitochondrial metabolism, Glycolysis genetics, Lipopolysaccharides metabolism, Mice, Respiration, Citric Acid Cycle, Immunity, Humoral
Abstract

To elucidate the function of oxidative phosphorylation (OxPhos) during B cell differentiation, we employ CD23Cre-driven expression of the dominant-negative K320E mutant of the mitochondrial helicase Twinkle (DNT). DNT-expression depletes mitochondrial DNA during B cell maturation, reduces the abundance of respiratory chain protein subunits encoded by mitochondrial DNA, and, consequently, respiratory chain super-complexes in activated B cells. Whereas B cell development in DNT mice is normal, B cell proliferation, germinal centers, class switch to IgG, plasma cell maturation, and T cell-dependent as well as T cell-independent humoral immunity are diminished. DNT expression dampens OxPhos but increases glycolysis in lipopolysaccharide and B cell receptor-activated cells. Lipopolysaccharide-activated DNT-B cells exhibit altered metabolites of glycolysis, the pentose phosphate pathway, and the tricarboxylic acid cycle and a lower amount of phosphatidic acid. Consequently, mTORC1 activity and BLIMP1 induction are curtailed, whereas HIF1α is stabilized. Hence, mitochondrial DNA controls the metabolism of activated B cells via OxPhos to foster humoral immunity., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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33. Augmented neutralization of SARS-CoV-2 Omicron variant by boost vaccination and monoclonal antibodies.

Author

Schulz SR, Hoffmann M, Roth E, Pracht K, Burnett DL, Mazigi O, Schuh W, Manger B, Mielenz D, Goodnow CC, Christ D, Pöhlmann S, and Jäck HM

Subjects
Antibodies, Monoclonal, Antibodies, Neutralizing, Antibodies, Viral, BNT162 Vaccine, COVID-19 Vaccines, Humans, SARS-CoV-2, Vaccination, Antineoplastic Agents, Immunological, COVID-19
Abstract

Effective vaccines and monoclonal antibodies have been developed against coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). However, the appearance of virus variants with higher transmissibility and pathogenicity is a major concern because of their potential to escape vaccines and clinically approved SARS-CoV-2- antibodies. Here, we use flow cytometry-based binding and pseudotyped SARS-CoV-2 neutralization assays to determine the efficacy of boost immunization and therapeutic antibodies to neutralize the dominant Omicron variant. We provide compelling evidence that the third vaccination with BNT162b2 increases the amount of neutralizing serum antibodies against Delta and Omicron variants, albeit to a lower degree when compared to the parental Wuhan strain. Therefore, a third vaccination is warranted to increase titers of protective serum antibodies, especially in the case of the Omicron variant. We also found that most clinically approved and otherwise potent therapeutic antibodies against the Delta variant failed to recognize and neutralize the Omicron variant. In contrast, some antibodies under preclinical development potentially neutralized the Omicron variant. Our studies also support using a flow cytometry-based antibody binding assay to rapidly monitor therapeutic candidates and serum titers against emerging SARS-CoV-2 variants., (© 2022 The Authors. European Journal of Immunology published by Wiley-VCH GmbH.)

Published
2022
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34. A pair of noncompeting neutralizing human monoclonal antibodies protecting from disease in a SARS-CoV-2 infection model.

Author

Peter AS, Roth E, Schulz SR, Fraedrich K, Steinmetz T, Damm D, Hauke M, Richel E, Mueller-Schmucker S, Habenicht K, Eberlein V, Issmail L, Uhlig N, Dolles S, Grüner E, Peterhoff D, Ciesek S, Hoffmann M, Pöhlmann S, McKay PF, Shattock RJ, Wölfel R, Socher E, Wagner R, Eichler J, Sticht H, Schuh W, Neipel F, Ensser A, Mielenz D, Tenbusch M, Winkler TH, Grunwald T, Überla K, and Jäck HM

Subjects
Animals, Antibodies, Monoclonal, Antibodies, Neutralizing, Antibodies, Viral, Humans, Mice, SARS-CoV-2, COVID-19, Spike Glycoprotein, Coronavirus
Abstract

TRIANNI mice carry an entire set of human immunoglobulin V region gene segments and are a powerful tool to rapidly isolate human monoclonal antibodies. After immunizing these mice with DNA encoding the spike protein of SARS-CoV-2 and boosting with spike protein, we identified 29 hybridoma antibodies that reacted with the SARS-CoV-2 spike protein. Nine antibodies neutralize SARS-CoV-2 infection at IC50 values in the subnanomolar range. ELISA-binding studies and DNA sequence analyses revealed one cluster of three clonally related neutralizing antibodies that target the receptor-binding domain and compete with the cellular receptor hACE2. A second cluster of six clonally related neutralizing antibodies bind to the N-terminal domain of the spike protein without competing with the binding of hACE2 or cluster 1 antibodies. SARS-CoV-2 mutants selected for resistance to an antibody from one cluster are still neutralized by an antibody from the other cluster. Antibodies from both clusters markedly reduced viral spread in mice transgenic for human ACE2 and protected the animals from SARS-CoV-2-induced weight loss. The two clusters of potent noncompeting SARS-CoV-2 neutralizing antibodies provide potential candidates for therapy and prophylaxis of COVID-19. The study further supports transgenic animals with a human immunoglobulin gene repertoire as a powerful platform in pandemic preparedness initiatives., (© 2021 The Authors. European Journal of Immunology published by Wiley-VCH GmbH.)

Published
2022
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35. Krüppel-like factor 2 controls IgA plasma cell compartmentalization and IgA responses.

Author

Wittner J, Schulz SR, Steinmetz TD, Berges J, Hauke M, Channell WM, Cunningham AF, Hauser AE, Hutloff A, Mielenz D, Jäck HM, and Schuh W

Subjects
Animals, Flagellin, Intestinal Mucosa, Mice, Immunoglobulin A metabolism, Kruppel-Like Transcription Factors genetics, Peyer's Patches, Plasma Cells
Abstract

Krüppel-like factor 2 (KLF2) is a potent regulator of lymphocyte differentiation, activation and migration. However, its functional role in adaptive and humoral immunity remains elusive. Therefore, by using mice with a B cell-specific deletion of KLF2, we investigated plasma cell differentiation and antibody responses. We revealed that the deletion of KLF2 resulted in perturbed IgA plasma cell compartmentalization, characterized by the absence of IgA plasma cells in the bone marrow, their reductions in the spleen, the blood and the lamina propria of the colon and the small intestine, concomitant with their accumulation and retention in mesenteric lymph nodes and Peyer's patches. Most intriguingly, secretory IgA in the intestinal lumen was almost absent, dimeric serum IgA was drastically reduced and antigen-specific IgA responses to soluble Salmonella flagellin were blunted in KLF2-deficient mice. Perturbance of IgA plasma cell localization was caused by deregulation of CCR9, Integrin chains αM, α4, β7, and sphingosine-1-phosphate receptors. Hence, KLF2 not only orchestrates the localization of IgA plasma cells by fine-tuning chemokine receptors and adhesion molecules but also controls IgA responses to Salmonella flagellin., (© 2022. The Author(s).)

Published
2022
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36. Humoral and Cellular Immune Responses to SARS-CoV-2 Infection and Vaccination in Autoimmune Disease Patients With B Cell Depletion.

Author

Simon D, Tascilar K, Schmidt K, Manger B, Weckwerth L, Sokolova M, Bucci L, Fagni F, Manger K, Schuch F, Ronneberger M, Hueber A, Steffen U, Mielenz D, Herrmann M, Harrer T, Kleyer A, Krönke G, and Schett G

Subjects
Autoimmune Diseases drug therapy, Autoimmune Diseases virology, COVID-19 prevention & control, Humans, Immunity, Cellular immunology, Immunity, Humoral immunology, Autoimmune Diseases immunology, B-Lymphocytes immunology, COVID-19 immunology, COVID-19 Vaccines immunology, Lymphocyte Depletion adverse effects, SARS-CoV-2 immunology
Abstract

Objective: B cell depletion is an established therapeutic principle in a wide range of autoimmune diseases. However, B cells are also critical for inducing protective immunity after infection and vaccination. We undertook this study to assess humoral and cellular immune responses after infection with or vaccination against SARS-CoV-2 in patients with B cell depletion and controls who are B cell-competent., Methods: Antibody responses (tested using enzyme-linked immunosorbent assay) and T cell responses (tested using interferon-γ enzyme-linked immunospot assay) against the SARS-CoV-2 spike S1 and nucleocapsid proteins were assessed in a limited number of previously infected (n = 6) and vaccinated (n = 8) autoimmune disease patients with B cell depletion, as well as previously infected (n = 30) and vaccinated (n = 30) healthy controls., Results: As expected, B cell and T cell responses to the nucleocapsid protein were observed only after infection, while respective responses to SARS-CoV-2 spike S1 were found after both infection and vaccination. A SARS-CoV-2 antibody response was observed in all vaccinated controls (30 of 30 [100%]) but in none of the vaccinated patients with B cell depletion (0 of 8). In contrast, after SARS-CoV-2 infection, both the patients with B cell depletion (spike S1, 5 of 6 [83%]; nucleocapsid, 3 of 6 [50%]) and healthy controls (spike S1, 28 of 30 [93%]; nucleocapsid, 28 of 30 [93%]) developed antibodies. T cell responses against the spike S1 and nucleocapsid proteins were found in both infected and vaccinated patients with B cell depletion and in the controls., Conclusion: These data show that B cell depletion completely blocks humoral but not T cell SARS-CoV-2 vaccination response. Furthermore, limited humoral immune responses are found after SARS-CoV-2 infection in patients with B cell depletion., (© 2021 The Authors. Arthritis & Rheumatology published by Wiley Periodicals LLC on behalf of American College of Rheumatology.)

Published
2022
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37. A surrogate cell-based SARS-CoV-2 spike blocking assay.

Author

Schuh W, Baus L, Steinmetz T, Schulz SR, Weckwerth L, Roth E, Hauke M, Krause S, Morhart P, Rauh M, Hoffmann M, Vesper N, Reth M, Schneider H, Jäck HM, and Mielenz D

Subjects
Antibodies, Blocking immunology, Antibodies, Neutralizing immunology, COVID-19 immunology, Humans, SARS-CoV-2, Spike Glycoprotein, Coronavirus immunology, Antibodies, Blocking blood, Antibodies, Neutralizing blood, Antibodies, Viral analysis, COVID-19 diagnosis, COVID-19 Serological Testing methods, Flow Cytometry methods
Abstract

To monitor infection by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and successful vaccination against coronavirus disease 2019 (COVID-19), the kinetics of neutralizing or blocking anti-SARS-CoV-2 antibody titers need to be assessed. Here, we report the development of a quick and inexpensive surrogate SARS-CoV-2 blocking assay (SUBA) using immobilized recombinant human angiotensin-converting enzyme 2 (hACE2) and human cells expressing the native form of surface SARS-CoV-2 spike protein. Spike protein-expressing cells bound to hACE2 in the absence or presence of blocking antibodies were quantified by measuring the optical density of cell-associated crystal violet in a spectrophotometer. The advantages are that SUBA is a fast and inexpensive assay, which does not require biosafety level 2- or 3-approved laboratories. Most importantly, SUBA detects blocking antibodies against the native trimeric cell-bound SARS-CoV-2 spike protein and can be rapidly adjusted to quickly pre-screen already approved therapeutic antibodies or sera from vaccinated individuals for their ACE2 blocking activities against any emerging SARS-CoV-2 variants., (© 2021 The Authors. European Journal of Immunology published by Wiley-VCH GmbH.)

Published
2021
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38. Increased risk of chronic fatigue and hair loss following COVID-19 in individuals with hypohidrotic ectodermal dysplasia.

Author

Hennig V, Schuh W, Neubert A, Mielenz D, Jäck HM, and Schneider H

Subjects
Adolescent, Adult, Alopecia, Child, Humans, Longitudinal Studies, Middle Aged, SARS-CoV-2, Spike Glycoprotein, Coronavirus, Young Adult, COVID-19, Ectodermal Dysplasia 1, Anhidrotic, Fatigue Syndrome, Chronic
Abstract

Background: Hypohidrotic ectodermal dysplasia (HED) is a group of genodermatoses in which deficient ectodysplasin A signalling leads to maldevelopment of skin appendages, various eccrine glands, and teeth. Individuals with HED often have disrupted epithelial barriers and, therefore, were suspected to be more susceptible to coronavirus infection., Methods: 56 households with at least one member who had coronavirus disease of 2019 (COVID-19) were enrolled in a longitudinal study to compare the course of illness, immune responses, and long-term consequences of severe acute respiratory syndrome-coronavirus 2 (SARS-CoV-2) infection in HED patients (n = 15, age 9-52 years) and control subjects of the same age group (n = 149)., Results: In 14 HED patients, mild or moderate typical COVID-19 symptoms were observed that lasted for 4-45 days. Fever during the first days sometimes required external cooling measures. The course of COVID-19 was similar to that in control subjects if patients developed antibodies blocking the SARS-CoV-2 spike protein. Five out of six HED patients with completely abrogated ectodysplasin A signalling (83%) suffered from chronic, in two cases very severe fatigue following COVID-19, while only 25% of HED patients with residual activity of this pathway and 21% of control subjects recovering from COVID-19 experienced postinfectious fatigue. Hair loss after COVID-19 was also more frequent among HED patients (64%) than in the control group (13%)., Conclusions: HED appears to be associated with an increased risk of long-term consequences of a SARS-CoV-2 infection. Preventive vaccination against COVID-19 should be recommended for individuals affected by this rare genetic disorder., (© 2021. The Author(s).)

Published
2021
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39. TFG is required for autophagy flux and to prevent endoplasmic reticulum stress in CH12 B lymphoma cells.

Author

Steinmetz TD, Schlötzer-Schrehardt U, Hearne A, Schuh W, Wittner J, Schulz SR, Winkler TH, Jäck HM, and Mielenz D

Subjects
Adaptor Proteins, Signal Transducing metabolism, Animals, Autophagosomes metabolism, Cell Line, Tumor, Endoplasmic Reticulum metabolism, Mice, Autophagy, Endoplasmic Reticulum Stress, Lymphoma, B-Cell, Proteins metabolism
Abstract

Plasma cells depend on quality control of newly synthesized antibodies in the endoplasmic reticulum (ER) via macroautophagy/autophagy and proteasomal degradation. The cytosolic adaptor protein TFG (Trk-fused gene) regulates ER-Golgi transport, the secretory pathway and proteasome activity in non-immune cells. We show here that TFG is upregulated during lipopolysaccharide- and CpG-induced differentiation of B1 and B2 B cells into plasmablasts, with the highest expression of TFG in mature plasma cells. CRISPR-CAS9-mediated gene disruption of tfg in the B lymphoma cell line CH12 revealed increased apoptosis, which was reverted by BCL2 but even more by ectopic TFG expression. Loss of TFG disrupted ER structure, leading to an expanded ER and increased expression of ER stress genes. When compared to wild-type CH12 cells, tfg KO CH12 cells were more sensitive toward ER stress induced by tunicamycin, monensin and proteasome inhibition or by expression of an ER-bound immunoglobulin (Ig) μ heavy (µH) chain. CH12 tfg KO B cells displayed more total LC3, lower LC3-II turnover and increased numbers and size of autophagosomes. Tandem-fluorescent-LC3 revealed less accumulation of GFP-LC3 in starved and chloroquine-treated CH12 tfg KO B cells. The GFP:RFP ratio of tandem-fluorescent-LC3 was higher in tunicamycin-treated CH12 tfg KO B cells, suggesting less autophagy flux during induced ER stress. Based on these data, we suggest that TFG controls autophagy flux in CH12 B cells and propose that TFG is a survival factor that alleviates ER stress through the support of autophagy flux in activated B cells and mature plasma cells. Abbreviations : Ab, antibody; Ag, antigen; ASC, antibody-secreting cells; ATG, autophagy-related; BCR, B cell receptor; COPII, coat protein complex II; CpG, non-methylated CpG oligonucleotide; ER, endoplasmic reticulum; ERAD, ER-associated degradation; FO, follicular; GFP, green fluorescent protein; HC, heavy chain; Ig, immunoglobulin; IRES, internal ribosomal entry site; LC, light chain; MZ, marginal zone; NFKB, nuclear factor of kappa light polypeptide gene enhancer in B cells; TLR, toll-like receptor; UPR, unfolded protein response.

Published
2021
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40. Metabolic impairment of non-small cell lung cancers by mitochondrial HSPD1 targeting.

Author

Parma B, Ramesh V, Gollavilli PN, Siddiqui A, Pinna L, Schwab A, Marschall S, Zhang S, Pilarsky C, Napoli F, Volante M, Urbanczyk S, Mielenz D, Schrøder HD, Stemmler M, Wurdak H, and Ceppi P

Subjects
Animals, Carcinoma, Non-Small-Cell Lung mortality, Carcinoma, Non-Small-Cell Lung pathology, Disease Models, Animal, Humans, Lung Neoplasms mortality, Lung Neoplasms pathology, Mice, Survival Analysis, Carcinoma, Non-Small-Cell Lung genetics, Chaperonin 60 metabolism, Lung Neoplasms genetics, Mitochondria metabolism, Mitochondrial Proteins metabolism
Abstract

Background: The identification of novel targets is of paramount importance to develop more effective drugs and improve the treatment of non-small cell lung cancer (NSCLC), the leading cause of cancer-related deaths worldwide. Since cells alter their metabolic rewiring during tumorigenesis and along cancer progression, targeting key metabolic players and metabolism-associated proteins represents a valuable approach with a high therapeutic potential. Metabolic fitness relies on the functionality of heat shock proteins (HSPs), molecular chaperones that facilitate the correct folding of metabolism enzymes and their assembly in macromolecular structures., Methods: Gene fitness was determined by bioinformatics analysis from available datasets from genetic screenings. HSPD1 expression was evaluated by immunohistochemistry from formalin-fixed paraffin-embedded tissues from NSCLC patients. Real-time proliferation assays with and without cytotoxicity reagents, colony formation assays and cell cycle analyses were used to monitor growth and drug sensitivity of different NSCLC cells in vitro. In vivo growth was monitored with subcutaneous injections in immune-deficient mice. Cell metabolic activity was analyzed through extracellular metabolic flux analysis. Specific knockouts were introduced by CRISPR/Cas9., Results: We show heat shock protein family D member 1 (HSPD1 or HSP60) as a survival gene ubiquitously expressed in NSCLC and associated with poor patients' prognosis. HSPD1 knockdown or its chemical disruption by the small molecule KHS101 induces a drastic breakdown of oxidative phosphorylation, and suppresses cell proliferation both in vitro and in vivo. By combining drug profiling with transcriptomics and through a whole-genome CRISPR/Cas9 screen, we demonstrate that HSPD1-targeted anti-cancer effects are dependent on oxidative phosphorylation and validated molecular determinants of KHS101 sensitivity, in particular, the creatine-transporter SLC6A8 and the subunit of the cytochrome c oxidase complex COX5B., Conclusions: These results highlight mitochondrial metabolism as an attractive target and HSPD1 as a potential theranostic marker for developing therapies to combat NSCLC., (© 2021. The Author(s).)

Published
2021
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41. miR-148a controls metabolic programming and survival of mature CD19-negative plasma cells in mice.

Author

Pracht K, Meinzinger J, Schulz SR, Daum P, Côrte-Real J, Hauke M, Roth E, Kindermann D, Mielenz D, Schuh W, Wittmann J, and Jäck HM

Subjects
Animals, Antigens, CD19 metabolism, B-Lymphocytes cytology, B-Lymphocytes immunology, B-Lymphocytes metabolism, Biomarkers, Bone Marrow immunology, Bone Marrow metabolism, Cell Differentiation immunology, Cell Survival genetics, Cell Survival immunology, Epitopes, B-Lymphocyte immunology, Gene Knockdown Techniques, Immunophenotyping, Lymphocyte Count, Mice, Mice, Knockout, Plasma Cells cytology, Plasma Cells immunology, RNA Interference, Cell Differentiation genetics, Energy Metabolism, Gene Expression Regulation, MicroRNAs genetics, Plasma Cells metabolism
Abstract

Long-lived antibody-secreting plasma cells are essential to establish humoral memory against pathogens. While a regulatory transcription factor network has been established in plasma cell differentiation, the regulatory role of miRNAs remains enigmatic. We have recently identified miR-148a as the most abundant miRNA in primary mouse and human plasma cells. To determine whether this plasma cell signature miRNA controls the in vivo development of B cells into long-lived plasma cells, we established mice with genomic, conditional, and inducible deletions of miR-148a. The analysis of miR-148a-deficient mice revealed reduced serum Ig, decreased numbers of newly formed plasmablasts and reduced CD19-negative, CD93-positive long-lived plasma cells. Transcriptome and metabolic analysis revealed an impaired glucose uptake, a reduced oxidative phosphorylation-based energy metabolism, and an altered abundance of homing receptors CXCR3 (increase) and CXCR4 (reduction) in miR-148a-deficient plasma cells. These findings support the role of miR-148a as a positive regulator of the maintenance of long-lived plasma cells., (© 2021 The Authors. European Journal of Immunology published by Wiley-VCH GmbH.)

Published
2021
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42. The role of miR-200b/c in balancing EMT and proliferation revealed by an activity reporter.

Author

Gollavilli PN, Parma B, Siddiqui A, Yang H, Ramesh V, Napoli F, Schwab A, Natesan R, Mielenz D, Asangani IA, Brabletz T, Pilarsky C, and Ceppi P

Subjects
Cell Differentiation genetics, Cell Proliferation genetics, Colorectal Neoplasms pathology, HCT116 Cells, Humans, Cell Plasticity genetics, Colorectal Neoplasms genetics, Epithelial-Mesenchymal Transition genetics, MicroRNAs genetics
Abstract

Since their discovery, microRNAs (miRNAs) have been widely studied in almost every aspect of biology and medicine, leading to the identification of important gene regulation circuits and cellular mechanisms. However, investigations are generally focused on the analysis of their downstream targets and biological functions in overexpression and knockdown approaches, while miRNAs endogenous levels and activity remain poorly understood. Here, we used the cellular plasticity-regulating process of epithelial-to-mesenchymal transition (EMT) as a model to show the efficacy of a fluorescent sensor to separate cells with distinct EMT signatures, based on miR-200b/c activity. The system was further combined with a CRISPR-Cas9 screening platform to unbiasedly identify miR-200b/c upstream regulating genes. The sensor allows to infer miRNAs fundamental biological properties, as profiling of sorted cells indicated miR-200b/c as a molecular switch between EMT differentiation and proliferation, and suggested a role for metabolic enzymes in miR-200/EMT regulation. Analysis of miRNAs endogenous levels and activity for in vitro and in vivo applications could lead to a better understanding of their biological role in physiology and disease.

Published
2021
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43. Proteasomal degradation induced by DPP9-mediated processing competes with mitochondrial protein import.

Author

Finger Y, Habich M, Gerlich S, Urbanczyk S, van de Logt E, Koch J, Schu L, Lapacz KJ, Ali M, Petrungaro C, Salscheider SL, Pichlo C, Baumann U, Mielenz D, Dengjel J, Brachvogel B, Hofmann K, and Riemer J

Subjects
HEK293 Cells, HeLa Cells, Humans, Protein Transport, Adenylate Kinase metabolism, Dipeptidyl-Peptidases and Tripeptidyl-Peptidases metabolism, Mitochondrial Proteins metabolism, Proteasome Endopeptidase Complex metabolism, Proteolysis
Abstract

Plasticity of the proteome is critical to adapt to varying conditions. Control of mitochondrial protein import contributes to this plasticity. Here, we identified a pathway that regulates mitochondrial protein import by regulated N-terminal processing. We demonstrate that dipeptidyl peptidases 8/9 (DPP8/9) mediate the N-terminal processing of adenylate kinase 2 (AK2) en route to mitochondria. We show that AK2 is a substrate of the mitochondrial disulfide relay, thus lacking an N-terminal mitochondrial targeting sequence and undergoing comparatively slow import. DPP9-mediated processing of AK2 induces its rapid proteasomal degradation and prevents cytosolic accumulation of enzymatically active AK2. Besides AK2, we identify more than 100 mitochondrial proteins with putative DPP8/9 recognition sites and demonstrate that DPP8/9 influence the cellular levels of a number of these proteins. Collectively, we provide in this study a conceptual framework on how regulated cytosolic processing controls levels of mitochondrial proteins as well as their dual localization to mitochondria and other compartments., (© 2020 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2020
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44. Personality driven alcohol and drug abuse: New mechanisms revealed.

Author

Skóra MN, Pattij T, Beroun A, Kogias G, Mielenz D, de Vries T, Radwanska K, and Müller CP

Subjects
Alcohol Drinking, Animals, Impulsive Behavior, Mice, Personality, Alcoholism, Substance-Related Disorders
Abstract

While the majority of the regular consumers of alcohol controls their consumption well over life span and even takes instrumentalization benefits from it, a minority, but yet high total number of users develops an alcohol addiction. It has long been known that particular personality types are more addiction prone than others. Here we review recent progress in the understanding of neurobiological pathways that determine personality and facilitate drug abuse. Novel approaches to characterize personality traits leading to addiction proneness in social settings in mice are discussed. A common genetic and neurobiological base for the behavioural traits of sensation seeking or a depressed phenotype and escalating alcohol consumption are reviewed. Furthermore, recent progress on how social and cognitive factors, including impulsivity and decision making, act at brain level to make an individual more vulnerable to alcohol abuse, are discussed. Altogether, this review provides an update on brain mechanisms underlying a broad spectrum of personality traits that make an individual more prone to alcohol and drug abuse and addiction., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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45. B Cell Speed and B-FDC Contacts in Germinal Centers Determine Plasma Cell Output via Swiprosin-1/EFhd2.

Author

Reimer D, Meyer-Hermann M, Rakhymzhan A, Steinmetz T, Tripal P, Thomas J, Boettcher M, Mougiakakos D, Schulz SR, Urbanczyk S, Hauser AE, Niesner RA, and Mielenz D

Subjects
Animals, Calcium-Binding Proteins deficiency, Cell Differentiation, Cell Movement immunology, Female, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Peptide Elongation Factor 2, B-Lymphocytes immunology, Calcium-Binding Proteins immunology, Dendritic Cells, Follicular immunology, Germinal Center immunology, Plasma Cells immunology
Abstract

Plasma cells secreting affinity-matured antibodies develop in germinal centers (GCs), where B cells migrate persistently and directionally over defined periods of time. How modes of GC B cell migration influence plasma cell development remained unclear. Through genetic deletion of the F-actin bundling protein Swiprosin-1/EF-hand domain family member 2 (EFhd2) and by two-photon microscopy, we show that EFhd2 restrains B cell speed in GCs and hapten-specific plasma cell output. Modeling the GC reaction reveals that increasing GC B cell speed promotes plasma cell generation. Lack of EFhd2 also reduces contacts of GC B cells with follicular dendritic cells in vivo. Computational modeling uncovers that both GC output and antibody affinity depend quantitatively on contacts of GC B cells with follicular dendritic cells when B cells migrate more persistently. Collectively, our data explain how GC B cells integrate speed and persistence of cell migration with B cell receptor affinity., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2020
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46. Swiprosin1/EFhd2 is involved in the monoaminergic and locomotor responses of psychostimulant drugs.

Author

Kogias G, Zheng F, Kalinichenko LS, Kornhuber J, Alzheimer C, Mielenz D, and Müller CP

Subjects
Animals, Behavior, Animal drug effects, Brain metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Brain drug effects, Calcium-Binding Proteins metabolism, Central Nervous System Stimulants pharmacology, Cocaine pharmacology, Locomotion drug effects, Methamphetamine pharmacology
Abstract

Psychostimulants are widely abused drugs that may cause addiction in vulnerable individuals. While the reward circuitry of the brain is involved in addiction establishment, various pathways in the brain may provide protection at the molecular level that limits the acute and chronic effects of drugs. These targets may be used for strategies designed to prevent and treat addiction. Swiprosin-1/EF hand domain 2 (EFhd2) is a Ca 2+ -binding cytoskeletal adaptor protein involved in sensation-seeking behaviour, anxiety and alcohol addiction. Here, we tested how EFhd2 contributes to the physiological and behavioural effects of the psychostimulant drugs methamphetamine (METH) and cocaine. An in vivo microdialysis study in EFhd2 knockout mice revealed that EFhd2 controls METH- and cocaine-induced changes in extracellular dopamine, serotonin and noradrenaline levels through different mechanisms in the nucleus accumbens and prefrontal cortex. Electrophysiological recordings in a slice preparation showed that a lack of EFhd2 increases dopaminergic neuronal activity in the ventral tegmental area and increases the sensitivity of neurons to stimulation. We report a role of EFhd2 in METH-induced locomotor activation and in the conditioned locomotor effects. No role, however, was observed in the establishment of METH- or cocaine-induced conditioned place preference. These findings may suggest that EFhd2 modulates the activity of the dopaminergic system and the neurochemical effects of METH and cocaine, which translate into a modulation of the behavioural effects of these drugs at the level of the acute and conditioned locomotor activity., (© 2020 The Authors. Journal of Neurochemistry published by John Wiley & Sons Ltd on behalf of International Society for Neurochemistry.)

Published
2020
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47. Unraveling the mysteries of plasma cells.

Author

Schuh W, Mielenz D, and Jäck HM

Subjects
Animals, Autophagy immunology, Humans, Antibody Formation immunology, Cell Differentiation immunology, Plasma Cells immunology
Abstract

Antibody-secreting plasma cells are the central pillars of humoral immunity. They are generated in a fundamental cellular restructuring process from naive B cells upon contact with antigen. This outstanding process is guided and controlled by a complex transcriptional network accompanied by a fascinating morphological metamorphosis, governed by the combined action of Blimp-1, Xbp-1 and IRF-4. The survival of plasma cells requires the intimate interaction with a specific microenvironment, consisting of stromal cells and cells of hematopoietic origin. Cell-cell contacts, cytokines and availability of metabolites such as glucose and amino acids modulate the survival abilities of plasma cells in their niches. Moreover, plasma cells have been shown to regulate immune responses by releasing cytokines. Furthermore, plasma cells are central players in autoimmune diseases and malignant transformation of plasma cells can result in the generation of multiple myeloma. Hence, the development of sophisticated strategies to deplete autoreactive plasma cells and myeloma cells represents a challenge for current and future research., (© 2020 Elsevier Inc. All rights reserved.)

Published
2020
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48. Guidelines for the use of flow cytometry and cell sorting in immunological studies (second edition).

Author

Cossarizza A, Chang HD, Radbruch A, Acs A, Adam D, Adam-Klages S, Agace WW, Aghaeepour N, Akdis M, Allez M, Almeida LN, Alvisi G, Anderson G, Andrä I, Annunziato F, Anselmo A, Bacher P, Baldari CT, Bari S, Barnaba V, Barros-Martins J, Battistini L, Bauer W, Baumgart S, Baumgarth N, Baumjohann D, Baying B, Bebawy M, Becher B, Beisker W, Benes V, Beyaert R, Blanco A, Boardman DA, Bogdan C, Borger JG, Borsellino G, Boulais PE, Bradford JA, Brenner D, Brinkman RR, Brooks AES, Busch DH, Büscher M, Bushnell TP, Calzetti F, Cameron G, Cammarata I, Cao X, Cardell SL, Casola S, Cassatella MA, Cavani A, Celada A, Chatenoud L, Chattopadhyay PK, Chow S, Christakou E, Čičin-Šain L, Clerici M, Colombo FS, Cook L, Cooke A, Cooper AM, Corbett AJ, Cosma A, Cosmi L, Coulie PG, Cumano A, Cvetkovic L, Dang VD, Dang-Heine C, Davey MS, Davies D, De Biasi S, Del Zotto G, Dela Cruz GV, Delacher M, Della Bella S, Dellabona P, Deniz G, Dessing M, Di Santo JP, Diefenbach A, Dieli F, Dolf A, Dörner T, Dress RJ, Dudziak D, Dustin M, Dutertre CA, Ebner F, Eckle SBG, Edinger M, Eede P, Ehrhardt GRA, Eich M, Engel P, Engelhardt B, Erdei A, Esser C, Everts B, Evrard M, Falk CS, Fehniger TA, Felipo-Benavent M, Ferry H, Feuerer M, Filby A, Filkor K, Fillatreau S, Follo M, Förster I, Foster J, Foulds GA, Frehse B, Frenette PS, Frischbutter S, Fritzsche W, Galbraith DW, Gangaev A, Garbi N, Gaudilliere B, Gazzinelli RT, Geginat J, Gerner W, Gherardin NA, Ghoreschi K, Gibellini L, Ginhoux F, Goda K, Godfrey DI, Goettlinger C, González-Navajas JM, Goodyear CS, Gori A, Grogan JL, Grummitt D, Grützkau A, Haftmann C, Hahn J, Hammad H, Hämmerling G, Hansmann L, Hansson G, Harpur CM, Hartmann S, Hauser A, Hauser AE, Haviland DL, Hedley D, Hernández DC, Herrera G, Herrmann M, Hess C, Höfer T, Hoffmann P, Hogquist K, Holland T, Höllt T, Holmdahl R, Hombrink P, Houston JP, Hoyer BF, Huang B, Huang FP, Huber JE, Huehn J, Hundemer M, Hunter CA, Hwang WYK, Iannone A, Ingelfinger F, Ivison SM, Jäck HM, Jani PK, Jávega B, Jonjic S, Kaiser T, Kalina T, Kamradt T, Kaufmann SHE, Keller B, Ketelaars SLC, Khalilnezhad A, Khan S, Kisielow J, Klenerman P, Knopf J, Koay HF, Kobow K, Kolls JK, Kong WT, Kopf M, Korn T, Kriegsmann K, Kristyanto H, Kroneis T, Krueger A, Kühne J, Kukat C, Kunkel D, Kunze-Schumacher H, Kurosaki T, Kurts C, Kvistborg P, Kwok I, Landry J, Lantz O, Lanuti P, LaRosa F, Lehuen A, LeibundGut-Landmann S, Leipold MD, Leung LYT, Levings MK, Lino AC, Liotta F, Litwin V, Liu Y, Ljunggren HG, Lohoff M, Lombardi G, Lopez L, López-Botet M, Lovett-Racke AE, Lubberts E, Luche H, Ludewig B, Lugli E, Lunemann S, Maecker HT, Maggi L, Maguire O, Mair F, Mair KH, Mantovani A, Manz RA, Marshall AJ, Martínez-Romero A, Martrus G, Marventano I, Maslinski W, Matarese G, Mattioli AV, Maueröder C, Mazzoni A, McCluskey J, McGrath M, McGuire HM, McInnes IB, Mei HE, Melchers F, Melzer S, Mielenz D, Miller SD, Mills KHG, Minderman H, Mjösberg J, Moore J, Moran B, Moretta L, Mosmann TR, Müller S, Multhoff G, Muñoz LE, Münz C, Nakayama T, Nasi M, Neumann K, Ng LG, Niedobitek A, Nourshargh S, Núñez G, O'Connor JE, Ochel A, Oja A, Ordonez D, Orfao A, Orlowski-Oliver E, Ouyang W, Oxenius A, Palankar R, Panse I, Pattanapanyasat K, Paulsen M, Pavlinic D, Penter L, Peterson P, Peth C, Petriz J, Piancone F, Pickl WF, Piconese S, Pinti M, Pockley AG, Podolska MJ, Poon Z, Pracht K, Prinz I, Pucillo CEM, Quataert SA, Quatrini L, Quinn KM, Radbruch H, Radstake TRDJ, Rahmig S, Rahn HP, Rajwa B, Ravichandran G, Raz Y, Rebhahn JA, Recktenwald D, Reimer D, Reis e Sousa C, Remmerswaal EBM, Richter L, Rico LG, Riddell A, Rieger AM, Robinson JP, Romagnani C, Rubartelli A, Ruland J, Saalmüller A, Saeys Y, Saito T, Sakaguchi S, Sala-de-Oyanguren F, Samstag Y, Sanderson S, Sandrock I, Santoni A, Sanz RB, Saresella M, Sautes-Fridman C, Sawitzki B, Schadt L, Scheffold A, Scherer HU, Schiemann M, Schildberg FA, Schimisky E, Schlitzer A, Schlosser J, Schmid S, Schmitt S, Schober K, Schraivogel D, Schuh W, Schüler T, Schulte R, Schulz AR, Schulz SR, Scottá C, Scott-Algara D, Sester DP, Shankey TV, Silva-Santos B, Simon AK, Sitnik KM, Sozzani S, Speiser DE, Spidlen J, Stahlberg A, Stall AM, Stanley N, Stark R, Stehle C, Steinmetz T, Stockinger H, Takahama Y, Takeda K, Tan L, Tárnok A, Tiegs G, Toldi G, Tornack J, Traggiai E, Trebak M, Tree TIM, Trotter J, Trowsdale J, Tsoumakidou M, Ulrich H, Urbanczyk S, van de Veen W, van den Broek M, van der Pol E, Van Gassen S, Van Isterdael G, van Lier RAW, Veldhoen M, Vento-Asturias S, Vieira P, Voehringer D, Volk HD, von Borstel A, von Volkmann K, Waisman A, Walker RV, Wallace PK, Wang SA, Wang XM, Ward MD, Ward-Hartstonge KA, Warnatz K, Warnes G, Warth S, Waskow C, Watson JV, Watzl C, Wegener L, Weisenburger T, Wiedemann A, Wienands J, Wilharm A, Wilkinson RJ, Willimsky G, Wing JB, Winkelmann R, Winkler TH, Wirz OF, Wong A, Wurst P, Yang JHM, Yang J, Yazdanbakhsh M, Yu L, Yue A, Zhang H, Zhao Y, Ziegler SM, Zielinski C, Zimmermann J, and Zychlinsky A

Subjects
Consensus, Humans, Phenotype, Allergy and Immunology standards, Cell Separation methods, Cell Separation standards, Flow Cytometry methods, Flow Cytometry standards
Abstract

These guidelines are a consensus work of a considerable number of members of the immunology and flow cytometry community. They provide the theory and key practical aspects of flow cytometry enabling immunologists to avoid the common errors that often undermine immunological data. Notably, there are comprehensive sections of all major immune cell types with helpful Tables detailing phenotypes in murine and human cells. The latest flow cytometry techniques and applications are also described, featuring examples of the data that can be generated and, importantly, how the data can be analysed. Furthermore, there are sections detailing tips, tricks and pitfalls to avoid, all written and peer-reviewed by leading experts in the field, making this an essential research companion., (© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2019
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49. Extracellular aggregated alpha synuclein primarily triggers lysosomal dysfunction in neural cells prevented by trehalose.

Author

Hoffmann AC, Minakaki G, Menges S, Salvi R, Savitskiy S, Kazman A, Vicente Miranda H, Mielenz D, Klucken J, Winkler J, and Xiang W

Subjects
Animals, Autophagy drug effects, Cell Line, Tumor, Escherichia coli genetics, Glioma pathology, Humans, Lysosomes drug effects, Parkinson Disease metabolism, Rats, Rats, Wistar, Recombinant Proteins metabolism, Sirolimus pharmacology, alpha-Synuclein genetics, Lysosomes metabolism, Neurons metabolism, Protein Aggregation, Pathological metabolism, Trehalose pharmacology, alpha-Synuclein metabolism
Abstract

Cell-to-cell propagation of aggregated alpha synuclein (aSyn) has been suggested to play an important role in the progression of alpha synucleinopathies. A critical step for the propagation process is the accumulation of extracellular aSyn within recipient cells. Here, we investigated the trafficking of distinct exogenous aSyn forms and addressed the mechanisms influencing their accumulation in recipient cells. The aggregated aSyn species (oligomers and fibrils) exhibited more pronounced accumulation within recipient cells than aSyn monomers. In particular, internalized extracellular aSyn in the aggregated forms was able to seed the aggregation of endogenous aSyn. Following uptake, aSyn was detected along endosome-to-lysosome and autophagosome-to-lysosome routes. Intriguingly, aggregated aSyn resulted in lysosomal activity impairment, accompanied by the accumulation of dilated lysosomes. Moreover, analysis of autophagy-related protein markers suggested decreased autophagosome clearance. In contrast, the endocytic pathway, proteasome activity, and mitochondrial homeostasis were not substantially affected in recipient cells. Our data suggests that extracellularly added aggregated aSyn primarily impairs lysosomal activity, consequently leading to aSyn accumulation within recipient cells. Importantly, the autophagy inducer trehalose prevented lysosomal alterations and attenuated aSyn accumulation within aSyn-exposed cells. Our study underscores the importance of lysosomes for the propagation of aSyn pathology, thereby proposing these organelles as interventional targets.

Published
2019
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50. Swiprosin-1/ EFhd2: from Immune Regulator to Personality and Brain Disorders.

Author

Kogias G, Kornhuber J, Reimer D, Mielenz D, and Müller CP

Subjects
Animals, Brain Diseases genetics, Calcium-Binding Proteins genetics, Humans, Personality Disorders genetics, Brain Diseases immunology, Brain Diseases metabolism, Calcium-Binding Proteins biosynthesis, Calcium-Binding Proteins immunology, Personality Disorders immunology, Personality Disorders metabolism
Abstract

Background/aims: Swiprosin-1/ EF-hand domain 2 (EFhd2) is a Ca 2+ sensor protein that plays an important role in the immune system. Its abundant expression in the brain, however, suggested also a role in neuronal circuits and behavior., Methods: Here we review recent discoveries on the structure and molecular function, its role in immunity and its function in the brain regarding behavioral control and pathologies., Results: While EFhd2 did not emerge as a vital protein for brain development, changes in its expression may nevertheless shape the adult behavioral repertoire significantly and contribute to adult personality traits. A defective function of EFhd2 may also render individuals more prone to the development of psychiatric disorders. Most prominently, EFhd2 proved to be a resilience factor protecting from fast establishment of drug addiction. Moreover, EFhd2 is critical for adult neurogenesis and as a modulator of monoaminergic systems., Conclusion: Dysregulated activity of EFhd2 is increasingly considered as a contributing factor for the development of numerous neurodegenerative disorders. Whether EFhd2 can be used as biomarker or in therapeutic approaches has to be addressed in future research., Competing Interests: The authors declare no conflicts of interest., (© Copyright by the Author(s). Published by Cell Physiol Biochem Press.)

Published
2019
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