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8. The european hematology association roadmap for european hematology research: A consensus document

Author

Engert, A. Balduini, C. Brand, A. Coiffier, B. Cordonnier, C. Döhner, H. De Wit, T.D. Eichinger, S. Fibbe, W. Green, T. De Haas, F. Iolascon, A. Jaffredo, T. Rodeghiero, F. Sall Es, G. Schuringa, J.J. André, M. Andre-Schmutz, I. Bacigalupo, A. Bochud, P.-Y. Den Boer, M. Bonini, C. Camaschella, C. Cant, A. Cappellini, M.D. Cazzola, M. Celso, C.L. Dimopoulos, M. Douay, L. Dzierzak, E. Einsele, H. Ferreri, A. De Franceschi, L. Gaulard, P. Gottgens, B. Greinacher, A. Gresele, P. Gribben, J. De Haan, G. Hansen, J.-B. Hochhaus, A. Kadir, R. Kaveri, S. Kouskoff, V. Kühne, T. Kyrle, P. Ljungman, P. Maschmeyer, G. Méndez-Ferrer, S. Milsom, M. Mummery, C. Ossenkoppele, G. Pecci, A. Peyvandi, F. Philipsen, S. Reitsma, P. Ribera, J.M. Risitano, A. Rivella, S. Ruf, W. Schroeder, T. Scully, M. Socie, G. Staal, F. Stanworth, S. Stauder, R. Stilgenbauer, S. Tamary, H. Theilgaard-Mönch, K. Thein, S.L. Tilly, H. Trneny, M. Vainchenker, W. Vannucchi, A.M. Viscoli, C. Vrielink, H. Zaaijer, H. Zanella, A. Zolla, L. Zwaginga, J.J. Martinez, P.A. Van Den Akker, E. Allard, S. Anagnou, N. Andolfo, I. Andrau, J.-C. Angelucci, E. Anstee, D. Aurer, I. Avet-Loiseau, H. Aydinok, Y. Bakchoul, T. Balduini, A. Barcellini, W. Baruch, D. Baruchel, A. Bayry, J. Bento, C. Van Den Berg, A. Bernardi, R. Bianchi, P. Bigas, A. Biondi, A. Bohonek, M. Bonnet, D. Borchmann, P. Borregaard, N. Brækkan, S. Van Den Brink, M. Brodin, E. Bullinger, L. Buske, C. Butzeck, B. Cammenga, J. Campo, E. Carbone, A. Cervantes, F. Cesaro, S. Charbord, P. Claas, F. Cohen, H. Conard, J. Coppo, P. Vives Corron, J.-L. Da Costa, L. Davi, F. Delwel, R. Dianzani, I. Domanović, D. Donnelly, P. Drnovšek, T.D. Dreyling, M. Du, M.-Q. Dufour, C. Durand, C. Efremov, D. Eleftheriou, A. Elion, J. Emonts, M. Engelhardt, M. Ezine, S. Falkenburg, F. Favier, R. Federico, M. Fenaux, P. Fitzgibbon, J. Flygare, J. Foà, R. Forrester, L. Galacteros, F. Garagiola, I. Gardiner, C. Garraud, O. Van Geet, C. Geiger, H. Geissler, J. Germing, U. Ghevaert, C. Girelli, D. Godeau, B. Gökbuget, N. Goldschmidt, H. Goodeve, A. Graf, T. Graziadei, G. Griesshammer, M. Gruel, Y. Guilhot, F. Von Gunten, S. Gyssens, I. Halter, J. Harrison, C. Harteveld, C. Hellström-Lindberg, E. Hermine, O. Higgs, D. Hillmen, P. Hirsch, H. Hoskin, P. Huls, G. Inati, A. Johnson, P. Kattamis, A. Kiefel, V. Kleanthous, M. Klump, H. Krause, D. Hovinga, J.K. Lacaud, G. Lacroix-Desmazes, S. Landman-Parker, J. Legouill, S. Lenz, G. Von Lilienfeld-Toal, M. Von Lindern, M. Lopez-Guillermo, A. Lopriore, E. Lozano, M. Macintyre, E. Makris, M. Mannhalter, C. Martens, J. Mathas, S. Matzdorff, A. Medvinsky, A. Menendez, P. Migliaccio, A.R. Miharada, K. Mikulska, M. Minard, V. Montalbán, C. De Montalembert, M. Montserrat, E. Morange, P.-E. Mountford, J. Muckenthaler, M. Müller-Tidow, C. Mumford, A. Nadel, B. Navarro, J.-T. El Nemer, W. Noizat-Pirenne, F. O’Mahony, B. Oldenburg, J. Olsson, M. Oostendorp, R. Palumbo, A. Passamonti, F. Patient, R. De Latour, R.P. Pflumio, F. Pierelli, L. Piga, A. Pollard, D. Raaijmakers, M. Radford, J. Rambach, R. Koneti Rao, A. Raslova, H. Rebulla, P. Rees, D. Ribrag, V. Rijneveld, A. Rinalducci, S. Robak, T. Roberts, I. Rodrigues, C. Rosendaal, F. Rosenwald, A. Rule, S. Russo, R. Saglio, G. Sanchez, M. Scharf, R.E. Schlenke, P. Semple, J. Sierra, J. So-Osman, C. Soria, J.M. Stamatopoulos, K. Stegmayr, B. Stunnenberg, H. Swinkels, D. Barata, J.P.T. Taghon, T. Taher, A. Terpos, E. Thachil, J. Tissot, J.D. Touw, I. Toye, A. Trappe, R. Traverse-Glehen, A. Unal, S. Vaulont, S. Viprakasit, V. Vitolo, U. Van Wijk, R. Wójtowicz, A. Zeerleder, S. Zieger, B. EHA Roadmap for European Hematology Research

Abstract

The European Hematology Association (EHA) Roadmap for European Hematology Research highlights major achievements in diagnosis and treatment of blood disorders and identifies the greatest unmet clinical and scientific needs in those areas to enable better funded, more focused European hematology research. Initiated by the EHA, around 300 experts contributed to the consensus document, which will help European policy makers, research funders, research organizations, researchers, and patient groups make better informed decisions on hematology research. It also aims to raise public awareness of the burden of blood disorders on European society, which purely in economic terms is estimated at ∈ European Hematology Association (EHA) Roadmap for European Hematology Research highlights major achievements in diagnosis and treatment of blood disorders and identifies the greatest unmet clinical and scientific needs in those areas to enable better fu treatments, sometimes in revolutionary ways. This progress highlights the potential of focused basic research programs such as this EHA Roadmap. The EHA Roadmap identifies nine ‘sections’ in hematology: normal hematopoiesis, malignant lymphoid and myeloid diseases, anemias and related diseases, platelet disorders, blood coagulation and hemostatic disorders, transfusion medicine, infections in hematology, and hematopoietic stem cell transplantation. These sections span 60 smaller groups of diseases or disorders. The EHA Roadmap identifies priorities and needs across the field of hematology, including those to develop targeted therapies based on genomic profiling and chemical biology, to eradicate minimal residual malignant disease, and to develop cellular immunotherapies, combination treatments, gene therapies, hematopoietic stem cell treatments, and treatments that are better tolerated by elderly patients. © 2016 Ferrata Storti Foundation.

Published
2016

10. Longevity of implantable cardioverter defibrillators: A comparison among manufacturers and over time

Author

Von Gunten, S. (Simon), Schaer, B. (Beat), Yap, S.C. (Sing-Chien), Szili-Török, T. (Tamás), Kühne, L.C. (Liesbeth), Sticherling, C. (Christian), Osswald, S. (Stefan), Theuns, D.A.M.J. (Dominic), Von Gunten, S. (Simon), Schaer, B. (Beat), Yap, S.C. (Sing-Chien), Szili-Török, T. (Tamás), Kühne, L.C. (Liesbeth), Sticherling, C. (Christian), Osswald, S. (Stefan), and Theuns, D.A.M.J. (Dominic)

Published
2016
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11. The European Hematology Association Roadmap for European Hematology Research: a consensus document.

Author

EHA Roadmap for European Hematology, Research, Engert, A., Balduini, C., Brand, A., Coiffier, B., Cordonnier, C., Döhner, H., de Wit TD., Eichinger, S., Fibbe, W., Green, T., de Haas, F., Iolascon, A., Jaffredo, T., Rodeghiero, F., Salles, G., Schuringa, JJ., André, M., Andre-Schmutz, I., Bacigalupo, A., Bochud, PY., Boer, Md., Bonini, C., Camaschella, C., Cant, A., Cappellini, MD., Cazzola, M., Celso, CL., Dimopoulos, M., Douay, L., Dzierzak, E., Einsele, H., Ferreri, A., De Franceschi, L., Gaulard, P., Gottgens, B., Greinacher, A., Gresele, P., Gribben, J., de Haan, G., Hansen, JB., Hochhaus, A., Kadir, R., Kaveri, S., Kouskoff, V., Kühne, T., Kyrle, P., Ljungman, P., Maschmeyer, G., Méndez-Ferrer£££Simón£££ S., Milsom, M., Mummery, C., Ossenkoppele, G., Pecci, A., Peyvandi, F., Philipsen, S., Reitsma, P., Ribera, JM., Risitano, A., Rivella, S., Ruf, W., Schroeder, T., Scully, M., Socie, G., Staal, F., Stanworth, S., Stauder, R., Stilgenbauer, S., Tamary, H., Theilgaard-Mönch, K., Thein, SL., Tilly, H., Trneny, M., Vainchenker, W., Vannucchi, AM., Viscoli, C., Vrielink, H., Zaaijer, H., Zanella, A., Zolla, L., Zwaginga, JJ., Martinez, PA., van den Akker, E., Allard, S., Anagnou, N., Andolfo, I., Andrau, JC., Angelucci, E., Anstee, D., Aurer, I., Avet-Loiseau, H., Aydinok, Y., Bakchoul, T., Balduini, A., Barcellini, W., Baruch, D., Baruchel, A., Bayry, J., Bento, C., van den Berg, A., Bernardi, R., Bianchi, P., Bigas, A., Biondi, A., Bohonek, M., Bonnet, D., Borchmann, P., Borregaard, N., Brækkan, S., van den Brink, M., Brodin, E., Bullinger, L., Buske, C., Butzeck, B., Cammenga, J., Campo, E., Carbone, A., Cervantes, F., Cesaro, S., Charbord, P., Claas, F., Cohen, H., Conard, J., Coppo, P., Corrons, JL., Costa, Ld., Davi, F., Delwel, R., Dianzani, I., Domanović, D., Donnelly, P., Drnov?ek£££Tadeja Dovč£££ TD., Dreyling, M., Du, MQ., Dufour, C., Durand, C., Efremov, D., Eleftheriou, A., Elion, J., Emonts, M., Engelhardt, M., Ezine, S., Falkenburg, F., Favier, R., Federico, M., Fenaux, P., Fitzgibbon, J., Flygare, J., Foà, R., Forrester, L., Galacteros, F., Garagiola, I., Gardiner, C., Garraud, O., van Geet, C., Geiger, H., Geissler, J., Germing, U., Ghevaert, C., Girelli, D., Godeau, B., Gökbuget, N., Goldschmidt, H., Goodeve, A., Graf, T., Graziadei, G., Griesshammer, M., Gruel, Y., Guilhot, F., von Gunten, S., Gyssens, I., Halter, J., Harrison, C., Harteveld, C., Hellström-Lindberg, E., Hermine, O., Higgs, D., Hillmen, P., Hirsch, H., Hoskin, P., Huls, G., Inati, A., Johnson, P., Kattamis, A., Kiefel, V., Kleanthous, M., Klump, H., Krause, D., Hovinga, JK., Lacaud, G., Lacroix-Desmazes, S., Landman-Parker, J., LeGouill, S., Lenz, G., von Lilienfeld-Toal, M., von Lindern, M., Lopez-Guillermo, A., Lopriore, E., Lozano, M., MacIntyre, E., Makris, M., Mannhalter, C., Martens, J., Mathas, S., Matzdorff, A., Medvinsky, A., Menendez, P., Migliaccio, AR., Miharada, K., Mikulska, M., Minard, V., Montalbán, C., de Montalembert, M., Montserrat, E., Morange, PE., Mountford, J., Muckenthaler, M., Müller-Tidow, C., Mumford, A., Nadel, B., Navarro, JT., Nemer, We., Noizat-Pirenne, F., O'Mahony, B., Oldenburg, J., Olsson, M., Oostendorp, R., Palumbo, A., Passamonti, F., Patient, R., Peffault, R., Pflumio, F., Pierelli, L., Piga, A., Pollard, D., Raaijmakers, M., Radford, J., Rambach, R., Rao, AK., Raslova, H., Rebulla, P., Rees, D., Ribrag, V., Rijneveld, A., Rinalducci, S., Robak, T., Roberts, I., Rodrigues, C., Rosendaal, F., Rosenwald, A., Rule, S., Russo, R., Saglio, G., Sanchez, M., Scharf, RE., Schlenke, P., Semple, J., Sierra, J., So-Osman, C., Soria, JM., Stamatopoulos, K., Stegmayr, B., Stunnenberg, H., Swinkels, D., Barata£££João Pedro Taborda£££ JP., Taghon, T., Taher, A., Terpos, E., Thachil, J., Tissot, JD., Touw, I., Toye, A., Trappe, R., Traverse-Glehen, A., Unal, S., Vaulont, S., Viprakasit, V., Vitolo, U., van Wijk, R., Wójtowicz, A., Zeerleder, S., Zieger, B., de Wit, T.D., Schuringa, J.J., EHA Roadmap for European Hematology, Research, Engert, A., Balduini, C., Brand, A., Coiffier, B., Cordonnier, C., Döhner, H., de Wit TD., Eichinger, S., Fibbe, W., Green, T., de Haas, F., Iolascon, A., Jaffredo, T., Rodeghiero, F., Salles, G., Schuringa, JJ., André, M., Andre-Schmutz, I., Bacigalupo, A., Bochud, PY., Boer, Md., Bonini, C., Camaschella, C., Cant, A., Cappellini, MD., Cazzola, M., Celso, CL., Dimopoulos, M., Douay, L., Dzierzak, E., Einsele, H., Ferreri, A., De Franceschi, L., Gaulard, P., Gottgens, B., Greinacher, A., Gresele, P., Gribben, J., de Haan, G., Hansen, JB., Hochhaus, A., Kadir, R., Kaveri, S., Kouskoff, V., Kühne, T., Kyrle, P., Ljungman, P., Maschmeyer, G., Méndez-Ferrer£££Simón£££ S., Milsom, M., Mummery, C., Ossenkoppele, G., Pecci, A., Peyvandi, F., Philipsen, S., Reitsma, P., Ribera, JM., Risitano, A., Rivella, S., Ruf, W., Schroeder, T., Scully, M., Socie, G., Staal, F., Stanworth, S., Stauder, R., Stilgenbauer, S., Tamary, H., Theilgaard-Mönch, K., Thein, SL., Tilly, H., Trneny, M., Vainchenker, W., Vannucchi, AM., Viscoli, C., Vrielink, H., Zaaijer, H., Zanella, A., Zolla, L., Zwaginga, JJ., Martinez, PA., van den Akker, E., Allard, S., Anagnou, N., Andolfo, I., Andrau, JC., Angelucci, E., Anstee, D., Aurer, I., Avet-Loiseau, H., Aydinok, Y., Bakchoul, T., Balduini, A., Barcellini, W., Baruch, D., Baruchel, A., Bayry, J., Bento, C., van den Berg, A., Bernardi, R., Bianchi, P., Bigas, A., Biondi, A., Bohonek, M., Bonnet, D., Borchmann, P., Borregaard, N., Brækkan, S., van den Brink, M., Brodin, E., Bullinger, L., Buske, C., Butzeck, B., Cammenga, J., Campo, E., Carbone, A., Cervantes, F., Cesaro, S., Charbord, P., Claas, F., Cohen, H., Conard, J., Coppo, P., Corrons, JL., Costa, Ld., Davi, F., Delwel, R., Dianzani, I., Domanović, D., Donnelly, P., Drnov?ek£££Tadeja Dovč£££ TD., Dreyling, M., Du, MQ., Dufour, C., Durand, C., Efremov, D., Eleftheriou, A., Elion, J., Emonts, M., Engelhardt, M., Ezine, S., Falkenburg, F., Favier, R., Federico, M., Fenaux, P., Fitzgibbon, J., Flygare, J., Foà, R., Forrester, L., Galacteros, F., Garagiola, I., Gardiner, C., Garraud, O., van Geet, C., Geiger, H., Geissler, J., Germing, U., Ghevaert, C., Girelli, D., Godeau, B., Gökbuget, N., Goldschmidt, H., Goodeve, A., Graf, T., Graziadei, G., Griesshammer, M., Gruel, Y., Guilhot, F., von Gunten, S., Gyssens, I., Halter, J., Harrison, C., Harteveld, C., Hellström-Lindberg, E., Hermine, O., Higgs, D., Hillmen, P., Hirsch, H., Hoskin, P., Huls, G., Inati, A., Johnson, P., Kattamis, A., Kiefel, V., Kleanthous, M., Klump, H., Krause, D., Hovinga, JK., Lacaud, G., Lacroix-Desmazes, S., Landman-Parker, J., LeGouill, S., Lenz, G., von Lilienfeld-Toal, M., von Lindern, M., Lopez-Guillermo, A., Lopriore, E., Lozano, M., MacIntyre, E., Makris, M., Mannhalter, C., Martens, J., Mathas, S., Matzdorff, A., Medvinsky, A., Menendez, P., Migliaccio, AR., Miharada, K., Mikulska, M., Minard, V., Montalbán, C., de Montalembert, M., Montserrat, E., Morange, PE., Mountford, J., Muckenthaler, M., Müller-Tidow, C., Mumford, A., Nadel, B., Navarro, JT., Nemer, We., Noizat-Pirenne, F., O'Mahony, B., Oldenburg, J., Olsson, M., Oostendorp, R., Palumbo, A., Passamonti, F., Patient, R., Peffault, R., Pflumio, F., Pierelli, L., Piga, A., Pollard, D., Raaijmakers, M., Radford, J., Rambach, R., Rao, AK., Raslova, H., Rebulla, P., Rees, D., Ribrag, V., Rijneveld, A., Rinalducci, S., Robak, T., Roberts, I., Rodrigues, C., Rosendaal, F., Rosenwald, A., Rule, S., Russo, R., Saglio, G., Sanchez, M., Scharf, RE., Schlenke, P., Semple, J., Sierra, J., So-Osman, C., Soria, JM., Stamatopoulos, K., Stegmayr, B., Stunnenberg, H., Swinkels, D., Barata£££João Pedro Taborda£££ JP., Taghon, T., Taher, A., Terpos, E., Thachil, J., Tissot, JD., Touw, I., Toye, A., Trappe, R., Traverse-Glehen, A., Unal, S., Vaulont, S., Viprakasit, V., Vitolo, U., van Wijk, R., Wójtowicz, A., Zeerleder, S., Zieger, B., de Wit, T.D., and Schuringa, J.J.

Abstract

The European Hematology Association (EHA) Roadmap for European Hematology Research highlights major achievements in diagnosis and treatment of blood disorders and identifies the greatest unmet clinical and scientific needs in those areas to enable better funded, more focused European hematology research. Initiated by the EHA, around 300 experts contributed to the consensus document, which will help European policy makers, research funders, research organizations, researchers, and patient groups make better informed decisions on hematology research. It also aims to raise public awareness of the burden of blood disorders on European society, which purely in economic terms is estimated at euro23 billion per year, a level of cost that is not matched in current European hematology research funding. In recent decades, hematology research has improved our fundamental understanding of the biology of blood disorders, and has improved diagnostics and treatments, sometimes in revolutionary ways. This progress highlights the potential of focused basic research programs such as this EHA Roadmap.The EHA Roadmap identifies nine 'sections' in hematology: normal hematopoiesis, malignant lymphoid and myeloid diseases, anemias and related diseases, platelet disorders, blood coagulation and hemostatic disorders, transfusion medicine, infections in hematology, and hematopoietic stem cell transplantation. These sections span 60 smaller groups of diseases or disorders.The EHA Roadmap identifies priorities and needs across the field of hematology, including those to develop targeted therapies based on genomic profiling and chemical biology, to eradicate minimal residual malignant disease, and to develop cellular immunotherapies, combination treatments, gene therapies, hematopoietic stem cell treatments, and treatments that are better tolerated by elderly patients.

Published
2016

12. The european hematology association roadmap for european hematology research: A consensus document

Author

Engert, A, Balduini, C, Brand, A, Coiffier, B, Cordonnier, C, Döhner, H, De Wit, T, Eichinger, S, Fibbe, W, Green, T, De Haas, F, Iolascon, A, Jaffredo, T, Rodeghiero, F, Sall Es, G, Schuringa, J, André, M, Andre Schmutz, I, Bacigalupo, A, Bochud, P, Den Boer, M, Bonini, C, Camaschella, C, Cant, A, Cappellini, M, Cazzola, M, Celso, C, Dimopoulos, M, Douay, L, Dzierzak, E, Einsele, H, Ferreri, A, De Franceschi, L, Gaulard, P, Gottgens, B, Greinacher, A, Gresele, P, Gribben, J, De Haan, G, Hansen, J, Hochhaus, A, Kadir, R, Kaveri, S, Kouskoff, V, Kühne, T, Kyrle, P, Ljungman, P, Maschmeyer, G, Méndez Ferrer, S, Milsom, M, Mummery, C, Ossenkoppele, G, Pecci, A, Peyvandi, F, Philipsen, S, Reitsma, P, Ribera, J, Risitano, A, Rivella, S, Ruf, W, Schroeder, T, Scully, M, Socie, G, Staal, F, Stanworth, S, Stauder, R, Stilgenbauer, S, Tamary, H, Theilgaard Mönch, K, Thein, S, Tilly, H, Trneny, M, Vainchenker, W, Vannucchi, A, Viscoli, C, Vrielink, H, Zaaijer, H, Zanella, A, Zolla, L, Zwaginga, J, Martinez, P, Van Den Akker, E, Allard, S, Anagnou, N, Andolfo, I, Andrau, J, Angelucci, E, Anstee, D, Aurer, I, Avet Loiseau, H, Aydinok, Y, Bakchoul, T, Balduini, A, Barcellini, W, Baruch, D, Baruchel, A, Bayry, J, Bento, C, Van Den Berg, A, Bernardi, R, Bianchi, P, Bigas, A, Biondi, A, Bohonek, M, Bonnet, D, Borchmann, P, Borregaard, N, Brækkan, S, Van Den Brink, M, Brodin, E, Bullinger, L, Buske, C, Butzeck, B, Cammenga, J, Campo, E, Carbone, A, Cervantes, F, Cesaro, S, Charbord, P, Claas, F, Cohen, H, Conard, J, Coppo, P, Vives Corron, J, Da Costa, L, Davi, F, Delwel, R, Dianzani, I, Domanović, D, Donnelly, P, Drnovšek, T, Dreyling, M, Du, M, Dufour, C, Durand, C, Efremov, D, Eleftheriou, A, Elion, J, Emonts, M, Engelhardt, M, Ezine, S, Falkenburg, F, Favier, R, Federico, M, Fenaux, P, Fitzgibbon, J, Flygare, J, Foà, R, Forrester, L, Galacteros, F, Garagiola, I, Gardiner, C, Garraud, O, Van Geet, C, Geiger, H, Geissler, J, Germing, U, Ghevaert, C, Girelli, D, Godeau, B, Gökbuget, N, Goldschmidt, H, Goodeve, A, Graf, T, Graziadei, G, Griesshammer, M, Gruel, Y, Guilhot, F, Von Gunten, S, Gyssens, I, Halter, J, Harrison, C, Harteveld, C, Hellström Lindberg, E, Hermine, O, Higgs, D, Hillmen, P, Hirsch, H, Hoskin, P, Huls, G, Inati, A, Johnson, P, Kattamis, A, Kiefel, V, Kleanthous, M, Klump, H, Krause, D, Hovinga, J, Lacaud, G, Lacroix Desmazes, S, Landman Parker, J, Legouill, S, Lenz, G, Von Lilienfeld Toal, M, Von Lindern, M, Lopez Guillermo, A, Lopriore, E, Lozano, M, Macintyre, E, Makris, M, Mannhalter, C, Martens, J, Mathas, S, Matzdorff, A, Medvinsky, A, Menendez, P, Migliaccio, A, Miharada, K, Mikulska, M, Minard, V, Montalbán, C, De Montalembert, M, Montserrat, E, Morange, P, Mountford, J, Muckenthaler, M, Müller Tidow, C, Mumford, A, Nadel, B, Navarro, J, El Nemer, W, Noizat Pirenne, F, O’Mahony, B, Oldenburg, J, Olsson, M, Oostendorp, R, Palumbo, A, Passamonti, F, Patient, R, De Latour, R, Pflumio, F, Pierelli, L, Piga, A, Pollard, D, Raaijmakers, M, Radford, J, Rambach, R, Koneti Rao, A, Raslova, H, Rebulla, P, Rees, D, Ribrag, V, Rijneveld, A, Rinalducci, S, Robak, T, Roberts, I, Rodrigues, C, Rosendaal, F, Rosenwald, A, Rule, S, Russo, R, Saglio, G, Sanchez, M, Scharf, R, Schlenke, P, Semple, J, Sierra, J, So Osman, C, Soria, J, Stamatopoulos, K, Stegmayr, B, Stunnenberg, H, Swinkels, D, Barata, J, Taghon, T, Taher, A, Terpos, E, Thachil, J, Tissot, J, Touw, I, Toye, A, Trappe, R, Traverse Glehen, A, Unal, S, Vaulont, S, Viprakasit, V, Vitolo, U, Van Wijk, R, Wójtowicz, A, Zeerleder, S, Zieger, B, Zieger, B., ZANELLA, ALBERTO, BIONDI, ANDREA, Engert, A, Balduini, C, Brand, A, Coiffier, B, Cordonnier, C, Döhner, H, De Wit, T, Eichinger, S, Fibbe, W, Green, T, De Haas, F, Iolascon, A, Jaffredo, T, Rodeghiero, F, Sall Es, G, Schuringa, J, André, M, Andre Schmutz, I, Bacigalupo, A, Bochud, P, Den Boer, M, Bonini, C, Camaschella, C, Cant, A, Cappellini, M, Cazzola, M, Celso, C, Dimopoulos, M, Douay, L, Dzierzak, E, Einsele, H, Ferreri, A, De Franceschi, L, Gaulard, P, Gottgens, B, Greinacher, A, Gresele, P, Gribben, J, De Haan, G, Hansen, J, Hochhaus, A, Kadir, R, Kaveri, S, Kouskoff, V, Kühne, T, Kyrle, P, Ljungman, P, Maschmeyer, G, Méndez Ferrer, S, Milsom, M, Mummery, C, Ossenkoppele, G, Pecci, A, Peyvandi, F, Philipsen, S, Reitsma, P, Ribera, J, Risitano, A, Rivella, S, Ruf, W, Schroeder, T, Scully, M, Socie, G, Staal, F, Stanworth, S, Stauder, R, Stilgenbauer, S, Tamary, H, Theilgaard Mönch, K, Thein, S, Tilly, H, Trneny, M, Vainchenker, W, Vannucchi, A, Viscoli, C, Vrielink, H, Zaaijer, H, Zanella, A, Zolla, L, Zwaginga, J, Martinez, P, Van Den Akker, E, Allard, S, Anagnou, N, Andolfo, I, Andrau, J, Angelucci, E, Anstee, D, Aurer, I, Avet Loiseau, H, Aydinok, Y, Bakchoul, T, Balduini, A, Barcellini, W, Baruch, D, Baruchel, A, Bayry, J, Bento, C, Van Den Berg, A, Bernardi, R, Bianchi, P, Bigas, A, Biondi, A, Bohonek, M, Bonnet, D, Borchmann, P, Borregaard, N, Brækkan, S, Van Den Brink, M, Brodin, E, Bullinger, L, Buske, C, Butzeck, B, Cammenga, J, Campo, E, Carbone, A, Cervantes, F, Cesaro, S, Charbord, P, Claas, F, Cohen, H, Conard, J, Coppo, P, Vives Corron, J, Da Costa, L, Davi, F, Delwel, R, Dianzani, I, Domanović, D, Donnelly, P, Drnovšek, T, Dreyling, M, Du, M, Dufour, C, Durand, C, Efremov, D, Eleftheriou, A, Elion, J, Emonts, M, Engelhardt, M, Ezine, S, Falkenburg, F, Favier, R, Federico, M, Fenaux, P, Fitzgibbon, J, Flygare, J, Foà, R, Forrester, L, Galacteros, F, Garagiola, I, Gardiner, C, Garraud, O, Van Geet, C, Geiger, H, Geissler, J, Germing, U, Ghevaert, C, Girelli, D, Godeau, B, Gökbuget, N, Goldschmidt, H, Goodeve, A, Graf, T, Graziadei, G, Griesshammer, M, Gruel, Y, Guilhot, F, Von Gunten, S, Gyssens, I, Halter, J, Harrison, C, Harteveld, C, Hellström Lindberg, E, Hermine, O, Higgs, D, Hillmen, P, Hirsch, H, Hoskin, P, Huls, G, Inati, A, Johnson, P, Kattamis, A, Kiefel, V, Kleanthous, M, Klump, H, Krause, D, Hovinga, J, Lacaud, G, Lacroix Desmazes, S, Landman Parker, J, Legouill, S, Lenz, G, Von Lilienfeld Toal, M, Von Lindern, M, Lopez Guillermo, A, Lopriore, E, Lozano, M, Macintyre, E, Makris, M, Mannhalter, C, Martens, J, Mathas, S, Matzdorff, A, Medvinsky, A, Menendez, P, Migliaccio, A, Miharada, K, Mikulska, M, Minard, V, Montalbán, C, De Montalembert, M, Montserrat, E, Morange, P, Mountford, J, Muckenthaler, M, Müller Tidow, C, Mumford, A, Nadel, B, Navarro, J, El Nemer, W, Noizat Pirenne, F, O’Mahony, B, Oldenburg, J, Olsson, M, Oostendorp, R, Palumbo, A, Passamonti, F, Patient, R, De Latour, R, Pflumio, F, Pierelli, L, Piga, A, Pollard, D, Raaijmakers, M, Radford, J, Rambach, R, Koneti Rao, A, Raslova, H, Rebulla, P, Rees, D, Ribrag, V, Rijneveld, A, Rinalducci, S, Robak, T, Roberts, I, Rodrigues, C, Rosendaal, F, Rosenwald, A, Rule, S, Russo, R, Saglio, G, Sanchez, M, Scharf, R, Schlenke, P, Semple, J, Sierra, J, So Osman, C, Soria, J, Stamatopoulos, K, Stegmayr, B, Stunnenberg, H, Swinkels, D, Barata, J, Taghon, T, Taher, A, Terpos, E, Thachil, J, Tissot, J, Touw, I, Toye, A, Trappe, R, Traverse Glehen, A, Unal, S, Vaulont, S, Viprakasit, V, Vitolo, U, Van Wijk, R, Wójtowicz, A, Zeerleder, S, Zieger, B, Zieger, B., ZANELLA, ALBERTO, and BIONDI, ANDREA

Abstract

The European Hematology Association (EHA) Roadmap for European Hematology Research highlights major achievements in diagnosis and treatment of blood disorders and identifies the greatest unmet clinical and scientific needs in those areas to enable better funded, more focused European hematology research. Initiated by the EHA, around 300 experts contributed to the consensus document, which will help European policy makers, research funders, research organizations, researchers, and patient groups make better informed decisions on hematology research. It also aims to raise public awareness of the burden of blood disorders on European society, which purely in economic terms is estimated at ∈ European Hematology Association (EHA) Roadmap for European Hematology Research highlights major achievements in diagnosis and treatment of blood disorders and identifies the greatest unmet clinical and scientific needs in those areas to enable better fu treatments, sometimes in revolutionary ways. This progress highlights the potential of focused basic research programs such as this EHA Roadmap. The EHA Roadmap identifies nine ‘sections’ in hematology: normal hematopoiesis, malignant lymphoid and myeloid diseases, anemias and related diseases, platelet disorders, blood coagulation and hemostatic disorders, transfusion medicine, infections in hematology, and hematopoietic stem cell transplantation. These sections span 60 smaller groups of diseases or disorders. The EHA Roadmap identifies priorities and needs across the field of hematology, including those to develop targeted therapies based on genomic profiling and chemical biology, to eradicate minimal residual malignant disease, and to develop cellular immunotherapies, combination treatments, gene therapies, hematopoietic stem cell treatments, and treatments that are better tolerated by elderly patients.

Published
2016

17. Glycomic analysis of human mast cells, eosinophils and basophils

Author

North, S. J., primary, von Gunten, S., additional, Antonopoulos, A., additional, Trollope, A., additional, MacGlashan, D. W., additional, Jang-Lee, J., additional, Dell, A., additional, Metcalfe, D. D., additional, Kirshenbaum, A. S., additional, Bochner, B. S., additional, and Haslam, S. M., additional

Published
2011
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19. 15. Mainzer Allergie-Workshop 2003

Author

Saloga, J., primary, Knop, J., additional, Rihs, H. P., additional, Dumont, B., additional, Rozynek, P., additional, Lundberg, M., additional, Cremer, R., additional, Brüning, T., additional, Raulf-Heimsoth, M., additional, Yeang, H. Y., additional, Sander, I., additional, Arif, S. A. M., additional, Fleischer, Ch., additional, Brüning, Th., additional, Pöppelmann, M., additional, Grobe, K., additional, Becker, W.-M., additional, Petersen, A., additional, Wicklein, D., additional, Lindner, B., additional, Lepp, U., additional, Altmann, F., additional, Hipler, U.-C., additional, Frank, U., additional, Schliemann-Willers, S., additional, Kaatz, M., additional, Eisner, P., additional, Kasche, A., additional, Krämer, U., additional, Klaus, S., additional, Buters, J., additional, Traidl-Hoffmann, C., additional, Ring, J., additional, Behrendt, Heidrun, additional, Huss-Marp, J., additional, Brockow, K., additional, Darsow, U., additional, Risse, U., additional, Böttcher, Ingo, additional, Sellinghausen, Iris, additional, Brand, Pia, additional, Klostermann, Bettina, additional, Mariant, Valentina, additional, Jakob, Thilo, additional, Hochrein, Hubertus, additional, Müller, Martin J., additional, Wagner, Hermann, additional, Baron, J. M., additional, Schiffer, R., additional, Bostonci, Ö., additional, Merk, H. F., additional, Zwadlo-Klarwasser, G., additional, Schäkel, Knut, additional, Kannagi, Reiji, additional, Kniep, Bernhard, additional, Goto, Y., additional, Mitsuoka, C., additional, Zwirner, Jörg, additional, Soruri, Avsanei, additional, von Kietzell, Matthias, additional, Rieber, Peter, additional, Lisewski, M., additional, Mommert, S., additional, Kapp, A., additional, Zwirner, J., additional, Werfet, T., additional, Gutzmer, R., additional, Langer, K., additional, Werfel, Thomas, additional, Soewarto, D., additional, Köllisch, G., additional, Howaldt, M., additional, Sandholzer, N., additional, Kreramer, E., additional, Hrabé deAngelis, M., additional, Balling, R., additional, Ollert, M., additional, Pfeffer, K., additional, Wolf, E., additional, Flaswinkel, H., additional, Ngoumou, Gonza, additional, Schäfer, Doerte, additional, Mattes, Joerg, additional, Moseler, Michael, additional, Kühr, Joachim, additional, Kopp, Matthias Volkmar, additional, Gutzmer, Ralf, additional, Wittmann, Miriam, additional, Janssen, Stefan, additional, Köther, Brigitta, additional, Alter, Mareike, additional, Stünkel, Tanja, additional, Hausdirjg, M., additional, Ho, T.-C., additional, Buerke, M., additional, Lehr, A. H., additional, Lux, C., additional, Schipp, M., additional, Galle, R. P., additional, Finotto, S., additional, Bünder, Robert, additional, Mittermann, Irene, additional, Herz, Udo, additional, Valenta, Rudolf, additional, Renz, Harald, additional, Seidel-Guvenot, W., additional, Goez, R., additional, Maurer, M., additional, Metz, Martin, additional, Blessing, M., additional, Schramm, C., additional, Steinbrink, K., additional, Köllisch, G. V., additional, Mempel, M., additional, Bauer, S., additional, Völcker, V., additional, Kasche, Anna, additional, Fesq, Heike, additional, Feussner, Ivo, additional, Schober, Wolfgang, additional, Buters, Jeroen, additional, Hueltner, Lothar, additional, Lippert, U., additional, Artuc, M., additional, Babina, M., additional, Blaschke, V., additional, Zachmann, K., additional, Neumann, Ch., additional, Henz, B. M., additional, Stassen, Michael, additional, Müller, Christian, additional, Richter, Christoph, additional, Neudörfl, Christine, additional, Hüttner, Lothar, additional, Bhakdi, Sucharit, additional, Walev, Iwan, additional, Schmitt, Edgar, additional, Mageri, Markus, additional, Maurer, Marcus, additional, Hartmann, Karin, additional, Artuc, Metin, additional, Hermes, Barbara, additional, Mekori, Yoseph A., additional, Henz, Beate M., additional, Breit, Susanne, additional, Schöpf, Pia, additional, Dugas, Martin, additional, Schiffl, Helmut, additional, Ruëff, Franziska, additional, Przybilla, Bernhard, additional, Forssmann, Ulf, additional, Härtung, Inka, additional, Bälder, Ralf, additional, Escher, Sylvia E., additional, Spodsberg, Nikolaj, additional, Dulkys, Yasmin, additional, Walden, Michael, additional, Heitland, Aleksandra, additional, Braun, Armin, additional, Forssmann, Wolf Georg, additional, Elsner, Jörn, additional, Raap, U., additional, Deneka, N., additional, Bruder, M., additional, Wedi, B., additional, Feser, A., additional, Plötz, S. G., additional, Kreyling, W., additional, Schober, W., additional, Weichenmeier, I., additional, Papo, D., additional, Eberlein-König, B., additional, Berresheim, H.-W., additional, Grimm, V., additional, Winneke, G., additional, Kleine-Tebbe, J., additional, Breuer, K., additional, Vieths, S., additional, Worm, M., additional, Kunkel, G., additional, Wahn, U., additional, Lau, S., additional, Errlmann, S. M., additional, Sauer, I., additional, Termeer, C., additional, Salman, S., additional, Averbeck, M., additional, Simon, J. C., additional, Heine, G., additional, Frotscher, B., additional, Anton, K., additional, Mahnke, Karsten, additional, Qian, Yingjie, additional, Enk, Alexander, additional, Enk, Alexander H., additional, Beinghausen, Iris, additional, Darcan, Y., additional, Seitzer, U., additional, Ahmed, J., additional, Sudowe, Stephan, additional, Ludwig-Portugall, Isis, additional, Ross, Ralf, additional, Reske-Kunz, Angelika B., additional, Maurer, T., additional, Lipford, G., additional, Wagner, H., additional, Rueff, Franziska, additional, Bauer, Carolyn, additional, Gosepath, J., additional, Mewes, Torsten, additional, Ziegler, E., additional, Ziegler, Esther Anja, additional, Flagge, A., additional, Hipler, Uta-Christina, additional, Baumbach, Heike, additional, Zintl, Felix, additional, Eisner, Peter, additional, Mainz, Jochen, additional, Huber, S., additional, Protschka, M., additional, Burg, J., additional, Galle, P. R., additional, Lohse, A. W., additional, Podlech, J., additional, Köhler, H., additional, Wegmann, M., additional, Heimann, S., additional, Fehrenbach, A., additional, Wagner, U., additional, Alfke, H., additional, Fehrenbach, H., additional, Beier, J., additional, Semmler, D., additional, Beeh, K. M., additional, Kornmann, O., additional, Buhl, R., additional, Quarcoo, David, additional, Ahrens, Birgit, additional, Meeuw, Anke, additional, Reese, Gerald, additional, Vieths, Stefan, additional, Hameimann, Eckard, additional, Heratizadeh, A., additional, Wulf, A., additional, Constien, A., additional, Tetau, D., additional, Lingelbach, A., additional, Rakoski, J., additional, Fiedler, E.-M., additional, Zuberbier, T., additional, Weidermiller, M., additional, Winterkamp, S., additional, Schwab, D., additional, Nabe, A., additional, Nägel, A., additional, Maiss, J., additional, Mühldorfer, St Donhauser N., additional, Hahn, E. G., additional, Raithel, M., additional, Weidenhiller, M., additional, Abel, R., additional, Baenkler, H. W., additional, Mühldorfer, St., additional, Funkt, Gewebediagnostik, additional, Klinik, I., additional, Scheibenzuber, M., additional, Meyer-Pittroff, R., additional, Reese, Imfce, additional, Oppel, Tilmann, additional, Hartmann, Karsten, additional, Pfützner, Wolfgang, additional, Biedermann, Tilo, additional, Sing, Andreas, additional, Dechene, M., additional, Staubach, P., additional, Hanau, A., additional, Magerl, M., additional, Eckhardt-Henn, A., additional, Onnen, K., additional, Kromminga, A., additional, Lüdtke, R., additional, Tschentscher, I., additional, Lange, Jost, additional, Berkenheide, Sabine, additional, Kuehr, Joachim, additional, Simon, D., additional, von Gunten, S., additional, Borelli, S., additional, Braathen, L. R., additional, Simon, H.-U., additional, Fokken, Niko, additional, Wittmann, Minam, additional, Mrabet-Dahbi, S., additional, Klotz, M., additional, Heeg, K., additional, Soost, S., additional, Lee, H., additional, Klinger, R., additional, Becker, Detlef, additional, Bruchhausen, Stefanie, additional, Jaeger, Claudia, additional, Hartschuh, W., additional, and Jappe, U., additional

Published
2003
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24. Siglec-9 Regulates an Effector Memory CD8+ T-cell Subset That Congregates in the Melanoma Tumor Microenvironment

Author

Haas, Q, primary, Boligan, KF, additional, Jandus, C, additional, Schneider, C, additional, Simillion, C, additional, Stanczak, MA, additional, Haubitz, M, additional, Seyed Jafari, SM, additional, Zippelius, A, additional, Baerlocher, GM, additional, Läubli, H, additional, Hunger, RE, additional, Romero, P, additional, Simon, HU, additional, and von Gunten, S, additional

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26. The European Hematology Association Roadmap for European Hematology Research: a consensus document

Author

Engert, Andreas, Balduini, Carlo, Brand, Anneke, Coiffier, Bertrand, Cordonnier, Catherine, Doehner, Hartmut, de Wit, Thom Duyvene, Eichinger, Sabine, Fibbe, Willem, Green, Tony, de Haas, Fleur, Iolascon, Achille, Jaffredo, Thierry, Rodeghiero, Francesco, Salles, Gilles, Schuringa, Jan Jacob, Andre, Marc, Andre-Schmutz, Isabelle, Bacigalupo, Andrea, Bochud, Pierre-Yves, den Boer, Monique, Bonini, Chiara, Camaschella, Clara, Cant, Andrew, Cappellini, Maria Domenica, Cazzola, Mario, Lo Celso, Cristina, Dimopoulos, Meletios, Douay, Luc, Dzierzak, Elaine, Einsele, Hermann, Ferreri, Andres, De Franceschi, Lucia, Gaulard, Philippe, Gottgens, Berthold, Greinacher, Andreas, Gresele, Paolo, Gribben, John, de Haan, Gerald, Hansen, John-Bjarne, Hochhaus, Andreas, Kadir, Rezan, Kaveri, Srini, Kouskoff, Valerie, Kuehne, Thomas, Kyrle, Paul, Ljungman, Per, Maschmeyer, Georg, Mendez-Ferrer, Simon, Milsom, Michael, Mummery, Christine, Ossenkoppele, Gert, Pecci, Alessandro, Peyvandi, Flora, Philipsen, Sjaak, Reitsma, Pieter, Maria Ribera, Jose, Risitano, Antonio, Rivella, Stefano, Ruf, Wolfram, Schroeder, Timm, Scully, Marie, Socie, Gerard, Staal, Frank, Stanworth, Simon, Stauder, Reinhard, Stilgenbauer, Stephan, Tamary, Hannah, Theilgaard-Monch, Kim, Thein, Swee Lay, Tilly, Herve, Trneny, Marek, Vainchenker, William, Vannucchi, Alessandro Maria, Viscoli, Claudio, Vrielink, Hans, Zaaijer, Hans, Zanella, Alberto, Zolla, Lello, Zwaginga, Jaap Jan, Martinez, Patricia Aguilar, van den Akker, Emile, Allard, Shubha, Anagnou, Nicholas, Andolfo, Immacolata, Andrau, Jean-Christophe, Angelucci, Emanuele, Anstee, David, Aurer, Igor, Avet-Loiseau, Herve, Aydinok, Yesim, Bakchoul, Tamam, Balduini, Alessandra, Barcellini, Wilma, Baruch, Dominique, Baruchel, Andre, Bayry, Jagadeesh, Bento, Celeste, van den Berg, Anke, Bernardi, Rosa, Bianchi, Paola, Bigas, Anna, Biondi, Andrea, Bohonek, Milos, Bonnet, Dominique, Borchmann, Peter, Borregaard, Niels, Braekkan, Sigrid, van den Brink, Marcel, Brodin, Ellen, Bullinger, Lars, Buske, Christian, Butzeck, Barbara, Cammenga, Jorg, Campo, Elias, Carbone, Antonino, Cervantes, Francisco, Cesaro, Simone, Charbord, Pierre, Claas, Frans, Cohen, Hannah, Conard, Jacqueline, Coppo, Paul, Vives Corrons, Joan-Lluis, da Costa, Lydie, Davi, Frederic, Delwel, Ruud, Dianzani, Irma, Domanovic, Dragoslav, Donnelly, Peter, Drnovsek, Tadeja Dovc, Dreyling, Martin, Du, Ming-Qing, Dufour, Carlo, Durand, Charles, Efremov, Dimitar, Eleftheriou, Androulla, Elion, Jacques, Emonts, Marieke, Engelhardt, Monika, Ezine, Sophie, Falkenburg, Fred, Favier, Remi, Federico, Massimo, Fenaux, Pierre, Fitzgibbon, Jude, Flygare, Johan, Foa, Robin, Forrester, Lesley, Galacteros, Frederic, Garagiola, Isabella, Gardiner, Chris, Garraud, Olivier, van Geet, Christel, Geiger, Hartmut, Geissler, Jan, Germing, Ulrich, Ghevaert, Cedric, Girelli, Domenico, Godeau, Bertrand, Goekbuget, Nicola, Goldschmidt, Hartmut, Goodeve, Anne, Graf, Thomas, Graziadei, Giovanna, Griesshammer, Martin, Gruel, Yves, Guilhot, Francois, von Gunten, Stephan, Gyssens, Inge, Halter, Jorg, Harrison, Claire, Harteveld, Cornelis, Hellstrom-Lindberg, Eva, Hermine, Olivier, Higgs, Douglas, Hillmen, Peter, Hirsch, Hans, Hoskin, Peter, Huls, Gerwin, Inati, Adlette, Johnson, Peter, Kattamis, Antonis, Kiefel, Volker, Kleanthous, Marina, Klump, Hannes, Krause, Daniela, Hovinga, Johanna Kremer, Lacaud, Georges, Lacroix-Desmazes, Sebastien, Landman-Parker, Judith, LeGouill, Steven, Lenz, Georg, von Lilienfeld-Toal, Marie, von Lindern, Marieke, Lopez-Guillermo, Armando, Lopriore, Enrico, Lozano, Miguel, MacIntyre, Elizabeth, Makris, Michael, Mannhalter, Christine, Martens, Joost, Mathas, Stephan, Matzdorff, Axel, Medvinsky, Alexander, Menendez, Pablo, Migliaccio, Anna Rita, Miharada, Kenichi, Mikulska, Malgorzata, Minard, Veronique, Montalban, Carlos, de Montalembert, Mariane, Montserrat, Emili, Morange, Pierre-Emmanuel, Mountford, Joanne, Muckenthaler, Martina, Mueller-Tidow, Carsten, Mumford, Andrew, Nadel, Bertrand, Navarro, Jose-Tomas, el Nemer, Wassim, Noizat-Pirenne, France, O'Mahony, Brian, Oldenburg, Johannes, Olsson, Martin, Oostendorp, Robert, Palumbo, Antonio, Passamonti, Francesco, Patient, Roger, de Latour, Regis Peffault, Pflumio, Francoise, Pierelli, Luca, Piga, Antonio, Pollard, Debra, Raaijmakers, Marc, Radford, John, Rambach, Ralf, Rao, A. Koneti, Raslova, Hana, Rebulla, Paolo, Rees, David, Ribrag, Vincent, Rijneveld, Anita, Rinalducci, Sara, Robak, Tadeusz, Roberts, Irene, Rodrigues, Charlene, Rosendaal, Frits, Rosenwald, Andreas, Rule, Simon, Russo, Roberta, Saglio, Guiseppe, Sanchez, Mayka, Scharf, Ruediger E., Schlenke, Peter, Semple, John, Sierra, Jorge, So-Osman, Cynthia, Manuel Soria, Jose, Stamatopoulos, Kostas, Stegmayr, Bernd, Stunnenberg, Henk, Swinkels, Dorine, Taborda Barata, Joao Pedro, Taghon, Tom, Taher, Ali, Terpos, Evangelos, Thachil, Jecko, Tissot, Jean Daniel, Touw, Ivo, Toye, Ash, Trappe, Ralf, Traverse-Glehen, Alexandra, Unal, Sule, Vaulont, Sophie, Viprakasit, Vip, Vitolo, Umberto, van Wijk, Richard, Wojtowicz, Agnieszka, Zeerleder, Sacha, Zieger, Barbara, Centre de Recherche des Cordeliers (CRC), Université Pierre et Marie Curie - Paris 6 (UPMC)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM), Université Pierre et Marie Curie - Paris 6 - UFR de Médecine Pierre et Marie Curie (UPMC), Université Pierre et Marie Curie - Paris 6 (UPMC), Université Sorbonne Paris Cité (USPC), Institut National de la Santé et de la Recherche Médicale (INSERM), University Hospital of Cologne [Cologne], Laboratoire de Biologie du Développement (LBD), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Service d’Hématologie [Centre Hospitalier Lyon Sud - HCL], Centre Hospitalier Lyon Sud [CHU - HCL] (CHLS), Hospices Civils de Lyon (HCL)-Hospices Civils de Lyon (HCL), Hospices Civils de Lyon (HCL), Department of Internal Medicine I, Medizinische Universität Wien = Medical University of Vienna, Service d'Hématologie [CHRU Nancy], Centre Hospitalier Régional Universitaire de Nancy (CHRU Nancy), Ege Üniversitesi, Engert, Andrea, Balduini, Carlo, Brand, Anneke, Coiffier, Bertrand, Cordonnier, Catherine, Döhner, Hartmut, De Wit, Thom Duyvené, Eichinger, Sabine, Fibbe, Willem, Green, Tony, De Haas, Fleur, Iolascon, Achille, Jaffredo, Thierry, Rodeghiero, Francesco, Sall Es, Gille, Schuringa, Jan Jacob, André, Marc, Andre Schmutz, Isabelle, Bacigalupo, Andrea, Bochud, Pierre Yve, Den Boer, Monique, Bonini, Chiara, Camaschella, Clara, Cant, Andrew, Cappellini, Maria Domenica, Cazzola, Mario, Celso, Cristina Lo, Dimopoulos, Meletio, Douay, Luc, Dzierzak, Elaine, Einsele, Hermann, Ferreri, André, De Franceschi, Lucia, Gaulard, Philippe, Gottgens, Berthold, Greinacher, Andrea, Gresele, Paolo, Gribben, John, De Haan, Gerald, Hansen, John Bjarne, Hochhaus, Andrea, Kadir, Rezan, Kaveri, Srini, Kouskoff, Valerie, Kühne, Thoma, Kyrle, Paul, Ljungman, Per, Maschmeyer, Georg, Méndez Ferrer, Simón, Milsom, Michael, Mummery, Christine, Ossenkoppele, Gert, Pecci, Alessandro, Peyvandi, Flora, Philipsen, Sjaak, Reitsma, Pieter, Ribera, José Maria, Risitano, ANTONIO MARIA, Rivella, Stefano, Ruf, Wolfram, Schroeder, Timm, Scully, Marie, Socie, Gerard, Staal, Frank, Stanworth, Simon, Stauder, Reinhard, Stilgenbauer, Stephan, Tamary, Hannah, Theilgaard Mönch, Kim, Thein, Swee Lay, Tilly, Hervé, Trneny, Marek, Vainchenker, William, Vannucchi, Alessandro Maria, Viscoli, Claudio, Vrielink, Han, Zaaijer, Han, Zanella, Alberto, Zolla, Lello, Zwaginga, Jaap Jan, Martinez, Patricia Aguilar, Van Den Akker, Emile, Allard, Shubha, Anagnou, Nichola, Andolfo, Immacolata, Andrau, Jean Christophe, Angelucci, Emanuele, Anstee, David, Aurer, Igor, Avet Loiseau, Hervé, Aydinok, Yesim, Bakchoul, Tamam, Balduini, Alessandra, Barcellini, Wilma, Baruch, Dominique, Baruchel, André, Bayry, Jagadeesh, Bento, Celeste, Van Den Berg, Anke, Bernardi, Rosa, Bianchi, Paola, Bigas, Anna, Biondi, Andrea, Bohonek, Milo, Bonnet, Dominique, Borchmann, Peter, Borregaard, Niel, Brækkan, Sigrid, Van Den Brink, Marcel, Brodin, Ellen, Bullinger, Lar, Buske, Christian, Butzeck, Barbara, Cammenga, Jörg, Campo, Elia, Carbone, Antonino, Cervantes, Francisco, Cesaro, Simone, Charbord, Pierre, Claas, Fran, Cohen, Hannah, Conard, Jacqueline, Coppo, Paul, Vives Corron, Joan Llui, Da Costa, Lydie, Davi, Frederic, Delwel, Ruud, Dianzani, Irma, Domanović, Dragoslav, Donnelly, Peter, Drnovšek, Tadeja Dovč, Dreyling, Martin, Du, Ming Qing, Dufour, Carlo, Durand, Charle, Efremov, Dimitar, Eleftheriou, Androulla, Elion, Jacque, Emonts, Marieke, Engelhardt, Monika, Ezine, Sophie, Falkenburg, Fred, Favier, Remi, Federico, Massimo, Fenaux, Pierre, Fitzgibbon, Jude, Flygare, Johan, Foà, Robin, Forrester, Lesley, Galacteros, Frederic, Garagiola, Isabella, Gardiner, Chri, Garraud, Olivier, Van Geet, Christel, Geiger, Hartmut, Geissler, Jan, Germing, Ulrich, Ghevaert, Cedric, Girelli, Domenico, Godeau, Bertrand, Gökbuget, Nicola, Goldschmidt, Hartmut, Goodeve, Anne, Graf, Thoma, Graziadei, Giovanna, Griesshammer, Martin, Gruel, Yve, Guilhot, Francoi, Von Gunten, Stephan, Gyssens, Inge, Halter, Jörg, Harrison, Claire, Harteveld, Corneli, Hellström Lindberg, Eva, Hermine, Olivier, Higgs, Dougla, Hillmen, Peter, Hirsch, Han, Hoskin, Peter, Huls, Gerwin, Inati, Adlette, Johnson, Peter, Kattamis, Antoni, Kiefel, Volker, Kleanthous, Marina, Klump, Hanne, Krause, Daniela, Hovinga, Johanna Kremer, Lacaud, George, Lacroix Desmazes, Sébastien, Landman Parker, Judith, Legouill, Steven, Lenz, Georg, Von Lilienfeld Toal, Marie, Von Lindern, Marieke, Lopez Guillermo, Armando, Lopriore, Enrico, Lozano, Miguel, Macintyre, Elizabeth, Makris, Michael, Mannhalter, Christine, Martens, Joost, Mathas, Stephan, Matzdorff, Axel, Medvinsky, Alexander, Menendez, Pablo, Migliaccio, Anna Rita, Miharada, Kenichi, Mikulska, Malgorzata, Minard, Véronique, Montalbán, Carlo, De Montalembert, Mariane, Montserrat, Emili, Morange, Pierre Emmanuel, Mountford, Joanne, Muckenthaler, Martina, Müller Tidow, Carsten, Mumford, Andrew, Nadel, Bertrand, Navarro, Jose Toma, El Nemer, Wassim, Noizat Pirenne, France, O’Mahony, Brian, Oldenburg, Johanne, Olsson, Martin, Oostendorp, Robert, Palumbo, Antonio, Passamonti, Francesco, Patient, Roger, De Latour, Regis Peffault, Pflumio, Francoise, Pierelli, Luca, Piga, Antonio, Pollard, Debra, Raaijmakers, Marc, Radford, John, Rambach, Ralf, Koneti Rao, A., Raslova, Hana, Rebulla, Paolo, Rees, David, Ribrag, Vincent, Rijneveld, Anita, Rinalducci, Sara, Robak, Tadeusz, Roberts, Irene, Rodrigues, Charlene, Rosendaal, Frit, Rosenwald, Andrea, Rule, Simon, Russo, Roberta, Saglio, Guiseppe, Sanchez, Mayka, Scharf, Rüdiger E., Schlenke, Peter, Semple, John, Sierra, Jorge, So Osman, Cynthia, Soria, José Manuel, Stamatopoulos, Kosta, Stegmayr, Bernd, Stunnenberg, Henk, Swinkels, Dorine, Barata, João Pedro Taborda, Taghon, Tom, Taher, Ali, Terpos, Evangelo, Thachil, Jecko, Tissot, Jean Daniel, Touw, Ivo, Toye, Ash, Trappe, Ralf, Traverse Glehen, Alexandra, Unal, Sule, Vaulont, Sophie, Viprakasit, Vip, Vitolo, Umberto, Van Wijk, Richard, Wójtowicz, Agnieszka, Zeerleder, Sacha, Zieger, Barbara, Hematology, Service d'hématologie clinique, Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Henri Mondor-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12), University of York [York, UK], Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS), Centre de Recherche en Cancérologie de Lyon (UNICANCER/CRCL), Centre Léon Bérard [Lyon]-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Pediatrics, Cell biology, Erasmus MC other, Pulmonary Medicine, Medical Oncology, Other departments, AII - Amsterdam institute for Infection and Immunity, Medical Microbiology and Infection Prevention, ACS - Amsterdam Cardiovascular Sciences, Clinical Haematology, Engert, A, Balduini, C, Brand, A, Coiffier, B, Cordonnier, C, Döhner, H, De, Wit, Td, Eichinger, S, Fibbe, W, Green, T, de Haas, F, Iolascon, A, Jaffredo, T, Rodeghiero, F, Salles, G, Schuringa, Jj, and the other authors of the EHA Roadmap for European Hematology, Research, Cancer Research UK, Biotechnology and Biological Sciences Research Council (BBSRC), Université Pierre et Marie Curie - Paris 6 (UPMC)-École Pratique des Hautes Études (EPHE), De Wit, T, De Haas, F, Sall Es, G, Schuringa, J, André, M, Andre Schmutz, I, Bacigalupo, A, Bochud, P, Den Boer, M, Bonini, C, Camaschella, C, Cant, A, Cappellini, M, Cazzola, M, Celso, C, Dimopoulos, M, Douay, L, Dzierzak, E, Einsele, H, Ferreri, A, De Franceschi, L, Gaulard, P, Gottgens, B, Greinacher, A, Gresele, P, Gribben, J, De Haan, G, Hansen, J, Hochhaus, A, Kadir, R, Kaveri, S, Kouskoff, V, Kühne, T, Kyrle, P, Ljungman, P, Maschmeyer, G, Méndez Ferrer, S, Milsom, M, Mummery, C, Ossenkoppele, G, Pecci, A, Peyvandi, F, Philipsen, S, Reitsma, P, Ribera, J, Risitano, A, Rivella, S, Ruf, W, Schroeder, T, Scully, M, Socie, G, Staal, F, Stanworth, S, Stauder, R, Stilgenbauer, S, Tamary, H, Theilgaard Mönch, K, Thein, S, Tilly, H, Trneny, M, Vainchenker, W, Vannucchi, A, Viscoli, C, Vrielink, H, Zaaijer, H, Zanella, A, Zolla, L, Zwaginga, J, Martinez, P, Van Den Akker, E, Allard, S, Anagnou, N, Andolfo, I, Andrau, J, Angelucci, E, Anstee, D, Aurer, I, Avet Loiseau, H, Aydinok, Y, Bakchoul, T, Balduini, A, Barcellini, W, Baruch, D, Baruchel, A, Bayry, J, Bento, C, Van Den Berg, A, Bernardi, R, Bianchi, P, Bigas, A, Biondi, A, Bohonek, M, Bonnet, D, Borchmann, P, Borregaard, N, Brækkan, S, Van Den Brink, M, Brodin, E, Bullinger, L, Buske, C, Butzeck, B, Cammenga, J, Campo, E, Carbone, A, Cervantes, F, Cesaro, S, Charbord, P, Claas, F, Cohen, H, Conard, J, Coppo, P, Vives Corron, J, Da Costa, L, Davi, F, Delwel, R, Dianzani, I, Domanović, D, Donnelly, P, Drnovšek, T, Dreyling, M, Du, M, Dufour, C, Durand, C, Efremov, D, Eleftheriou, A, Elion, J, Emonts, M, Engelhardt, M, Ezine, S, Falkenburg, F, Favier, R, Federico, M, Fenaux, P, Fitzgibbon, J, Flygare, J, Foà, R, Forrester, L, Galacteros, F, Garagiola, I, Gardiner, C, Garraud, O, Van Geet, C, Geiger, H, Geissler, J, Germing, U, Ghevaert, C, Girelli, D, Godeau, B, Gökbuget, N, Goldschmidt, H, Goodeve, A, Graf, T, Graziadei, G, Griesshammer, M, Gruel, Y, Guilhot, F, Von Gunten, S, Gyssens, I, Halter, J, Harrison, C, Harteveld, C, Hellström Lindberg, E, Hermine, O, Higgs, D, Hillmen, P, Hirsch, H, Hoskin, P, Huls, G, Inati, A, Johnson, P, Kattamis, A, Kiefel, V, Kleanthous, M, Klump, H, Krause, D, Hovinga, J, Lacaud, G, Lacroix Desmazes, S, Landman Parker, J, Legouill, S, Lenz, G, Von Lilienfeld Toal, M, Von Lindern, M, Lopez Guillermo, A, Lopriore, E, Lozano, M, Macintyre, E, Makris, M, Mannhalter, C, Martens, J, Mathas, S, Matzdorff, A, Medvinsky, A, Menendez, P, Migliaccio, A, Miharada, K, Mikulska, M, Minard, V, Montalbán, C, De Montalembert, M, Montserrat, E, Morange, P, Mountford, J, Muckenthaler, M, Müller Tidow, C, Mumford, A, Nadel, B, Navarro, J, El Nemer, W, Noizat Pirenne, F, O’Mahony, B, Oldenburg, J, Olsson, M, Oostendorp, R, Palumbo, A, Passamonti, F, Patient, R, De Latour, R, Pflumio, F, Pierelli, L, Piga, A, Pollard, D, Raaijmakers, M, Radford, J, Rambach, R, Koneti Rao, A, Raslova, H, Rebulla, P, Rees, D, Ribrag, V, Rijneveld, A, Rinalducci, S, Robak, T, Roberts, I, Rodrigues, C, Rosendaal, F, Rosenwald, A, Rule, S, Russo, R, Saglio, G, Sanchez, M, Scharf, R, Schlenke, P, Semple, J, Sierra, J, So Osman, C, Soria, J, Stamatopoulos, K, Stegmayr, B, Stunnenberg, H, Swinkels, D, Barata, J, Taghon, T, Taher, A, Terpos, E, Thachil, J, Tissot, J, Touw, I, Toye, A, Trappe, R, Traverse Glehen, A, Unal, S, Vaulont, S, Viprakasit, V, Vitolo, U, Van Wijk, R, Wójtowicz, A, Zeerleder, S, Zieger, B, Andreas Engert, Carlo Balduini, Anneke Brand, Bertrand Coiffier, Catherine Cordonnier, Hartmut Döhner, Thom Duyvené de Wit, Sabine Eichinger, Willem Fibbe, Tony Green, Fleur de Haas, Achille Iolascon, Thierry Jaffredo, Francesco Rodeghiero, Gilles Salles, Jan Jacob Schuringa, the other authors of the EHA Roadmap for European Hematology Research, Anna Rita Migliaccio, EHA Roadmap for European Hematology, Research, Engert, A., Balduini, C., Brand, A., Coiffier, B., Cordonnier, C., Döhner, H., de Wit TD., Eichinger, S., Fibbe, W., Green, T., de Haas, F., Iolascon, A., Jaffredo, T., Rodeghiero, F., Salles, G., Schuringa, JJ., André, M., Andre-Schmutz, I., Bacigalupo, A., Bochud, PY., Boer, Md., Bonini, C., Camaschella, C., Cant, A., Cappellini, MD., Cazzola, M., Celso, CL., Dimopoulos, M., Douay, L., Dzierzak, E., Einsele, H., Ferreri, A., De Franceschi, L., Gaulard, P., Gottgens, B., Greinacher, A., Gresele, P., Gribben, J., de Haan, G., Hansen, JB., Hochhaus, A., Kadir, R., Kaveri, S., Kouskoff, V., Kühne, T., Kyrle, P., Ljungman, P., Maschmeyer, G., Méndez-Ferrer£££Simón£££ S., Milsom, M., Mummery, C., Ossenkoppele, G., Pecci, A., Peyvandi, F., Philipsen, S., Reitsma, P., Ribera, JM., Risitano, A., Rivella, S., Ruf, W., Schroeder, T., Scully, M., Socie, G., Staal, F., Stanworth, S., Stauder, R., Stilgenbauer, S., Tamary, H., Theilgaard-Mönch, K., Thein, SL., Tilly, H., Trneny, M., Vainchenker, W., Vannucchi, AM., Viscoli, C., Vrielink, H., Zaaijer, H., Zanella, A., Zolla, L., Zwaginga, JJ., Martinez, PA., van den Akker, E., Allard, S., Anagnou, N., Andolfo, I., Andrau, JC., Angelucci, E., Anstee, D., Aurer, I., Avet-Loiseau, H., Aydinok, Y., Bakchoul, T., Balduini, A., Barcellini, W., Baruch, D., Baruchel, A., Bayry, J., Bento, C., van den Berg, A., Bernardi, R., Bianchi, P., Bigas, A., Biondi, A., Bohonek, M., Bonnet, D., Borchmann, P., Borregaard, N., Brækkan, S., van den Brink, M., Brodin, E., Bullinger, L., Buske, C., Butzeck, B., Cammenga, J., Campo, E., Carbone, A., Cervantes, F., Cesaro, S., Charbord, P., Claas, F., Cohen, H., Conard, J., Coppo, P., Corrons, JL., Costa, Ld., Davi, F., Delwel, R., Dianzani, I., Domanović, D., Donnelly, P., Drnov?ek£££Tadeja Dovč£££ TD., Dreyling, M., Du, MQ., Dufour, C., Durand, C., Efremov, D., Eleftheriou, A., Elion, J., Emonts, M., Engelhardt, M., Ezine, S., Falkenburg, F., Favier, R., Federico, M., Fenaux, P., Fitzgibbon, J., Flygare, J., Foà, R., Forrester, L., Galacteros, F., Garagiola, I., Gardiner, C., Garraud, O., van Geet, C., Geiger, H., Geissler, J., Germing, U., Ghevaert, C., Girelli, D., Godeau, B., Gökbuget, N., Goldschmidt, H., Goodeve, A., Graf, T., Graziadei, G., Griesshammer, M., Gruel, Y., Guilhot, F., von Gunten, S., Gyssens, I., Halter, J., Harrison, C., Harteveld, C., Hellström-Lindberg, E., Hermine, O., Higgs, D., Hillmen, P., Hirsch, H., Hoskin, P., Huls, G., Inati, A., Johnson, P., Kattamis, A., Kiefel, V., Kleanthous, M., Klump, H., Krause, D., Hovinga, JK., Lacaud, G., Lacroix-Desmazes, S., Landman-Parker, J., LeGouill, S., Lenz, G., von Lilienfeld-Toal, M., von Lindern, M., Lopez-Guillermo, A., Lopriore, E., Lozano, M., MacIntyre, E., Makris, M., Mannhalter, C., Martens, J., Mathas, S., Matzdorff, A., Medvinsky, A., Menendez, P., Migliaccio, AR., Miharada, K., Mikulska, M., Minard, V., Montalbán, C., de Montalembert, M., Montserrat, E., Morange, PE., Mountford, J., Muckenthaler, M., Müller-Tidow, C., Mumford, A., Nadel, B., Navarro, JT., Nemer, We., Noizat-Pirenne, F., O'Mahony, B., Oldenburg, J., Olsson, M., Oostendorp, R., Palumbo, A., Passamonti, F., Patient, R., Peffault, R., Pflumio, F., Pierelli, L., Piga, A., Pollard, D., Raaijmakers, M., Radford, J., Rambach, R., Rao, AK., Raslova, H., Rebulla, P., Rees, D., Ribrag, V., Rijneveld, A., Rinalducci, S., Robak, T., Roberts, I., Rodrigues, C., Rosendaal, F., Rosenwald, A., Rule, S., Russo, R., Saglio, G., Sanchez, M., Scharf, RE., Schlenke, P., Semple, J., Sierra, J., So-Osman, C., Soria, JM., Stamatopoulos, K., Stegmayr, B., Stunnenberg, H., Swinkels, D., Barata£££João Pedro Taborda£££ JP., Taghon, T., Taher, A., Terpos, E., Thachil, J., Tissot, JD., Touw, I., Toye, A., Trappe, R., Traverse-Glehen, A., Unal, S., Vaulont, S., Viprakasit, V., Vitolo, U., van Wijk, R., Wójtowicz, A., Zeerleder, S., Zieger, B., Stem Cell Aging Leukemia and Lymphoma (SALL), and Çocuk Sağlığı ve Hastalıkları

Subjects
0301 basic medicine, Cancer Research, diagnosis, Health Services for the Aged, ACUTE PROMYELOCYTIC LEUKEMIA, Medizin, [SDV.IMM.II]Life Sciences [q-bio]/Immunology/Innate immunity, EHA Roadmap for European Hematology Research, Antineoplastic Agent, 0302 clinical medicine, European Hematology Association Roadmap, Germany, PERIPHERAL T-CELL, Medicine and Health Sciences, Hematopoiesi, genetics, Molecular Targeted Therapy, [SDV.IMM.ALL]Life Sciences [q-bio]/Immunology/Allergology, ComputingMilieux_MISCELLANEOUS, Hematology, Genome, Hematopoietic Stem Cell Transplantation, Anemia, Awareness, Supply & distribution, Combined Modality Therapy, 3. Good health, Europe, THROMBOPOIETIN-RECEPTOR AGONISTS, Blood Disorder, Italy, Austria, haematology, Medicine, France, Immunotherapy, Infection, [SDV.IMM.ALL] Life Sciences [q-bio]/Immunology/Allergology, Human, medicine.medical_specialty, Thrombopoietin Receptor Agonists, Consensus, Patients, Immunology, Antineoplastic Agents, Blood Coagulation, Gene Expression Profiling, Genetic Therapy, Genome, Human, Hematologic Diseases, Hematopoiesis, Humans, Consensu, [SDV.CAN]Life Sciences [q-bio]/Cancer, ACUTE MYELOID-LEUKEMIA, 1102 Cardiovascular Medicine And Haematology, Genetic therapy, methods, 03 medical and health sciences, blood, Internal medicine, medicine, Hematologi, THROMBOTIC THROMBOCYTOPENIC PURPURA, [SDV.IMM.II] Life Sciences [q-bio]/Immunology/Innate immunity, ACUTE LYMPHOBLASTIC-LEUKEMIA, therapy, business.industry, CHRONIC LYMPHOCYTIC-LEUKEMIA, supply & distribution, STEM-CELL TRANSPLANTATION, economics, Hematologic Disease, Opinion Article, Transplantation, 030104 developmental biology, Family medicine, therapeutic use, drug effects, RANDOMIZED-CONTROLLED-TRIAL, HEMOLYTIC-UREMIC SYNDROME, pathology, business, chemical synthesis, 030215 immunology, Stem Cell Transplantation, transplantation
Abstract

WOS: 000379156300012, PubMed ID: 26819058, The European Hematology Association (EHA) Roadmap for European Hematology Research highlights major achievements in diagnosis and treatment of blood disorders and identifies the greatest unmet clinical and scientific needs in those areas to enable better funded, more focused European hematology research. Initiated by the EHA, around 300 experts contributed to the consensus document, which will help European policy makers, research funders, research organizations, researchers, and patient groups make better informed decisions on hematology research. It also aims to raise public awareness of the burden of blood disorders on European society, which purely in economic terms is estimated at (sic)23 billion per year, a level of cost that is not matched in current European hematology research funding. In recent decades, hematology research has improved our fundamental understanding of the biology of blood disorders, and has improved diagnostics and treatments, sometimes in revolutionary ways. This progress highlights the potential of focused basic research programs such as this EHA Roadmap. The EHA Roadmap identifies nine 'sections' in hematology: normal hematopoiesis, malignant lymphoid and myeloid diseases, anemias and related diseases, platelet disorders, blood coagulation and hemostatic disorders, transfusion medicine, infections in hematology, and hematopoietic stem cell transplantation. These sections span 60 smaller groups of diseases or disorders. The EHA Roadmap identifies priorities and needs across the field of hematology, including those to develop targeted therapies based on genomic profiling and chemical biology, to eradicate minimal residual malignant disease, and to develop cellular immunotherapies, combination treatments, gene therapies, hematopoietic stem cell treatments, and treatments that are better tolerated by elderly patients., Biotechnology and Biological Sciences Research CouncilBiotechnology and Biological Sciences Research Council (BBSRC) [BB/L023776/1, BB/I00050X/1, BB/K021168/1]; Cancer Research UKCancer Research UK [11831]; Medical Research CouncilMedical Research Council UK (MRC) [G1000801a]; Novo Nordisk FondenNovo Nordisk [NNF12OC1015986]; British Heart FoundationBritish Heart Foundation [FS/09/039/27788]; Cancer Research UKCancer Research UK [12765]; Medical Research CouncilMedical Research Council UK (MRC) [MR/L022982/1, MC_UU_12009/8, MC_U137981013, MC_PC_12009]

Published
2016

27. "Towards melanoma in situ vaccination with multiple ultra-narrow X-ray beams".

Author

Trappetti V, Fernández-Palomo C, Arora P, Potez M, Pellicioli P, Fazzari J, Shintani N, Sanchez-Gonzalez I, Wu CT, de Breuyn Dietler B, Mercader-Huber N, Martin OA, von Gunten S, Volarevic V, and Djonov V

Abstract

Despite the recent progress, current treatment modalities are not able to eradicate cancer. We show that Microbeam Radiotherapy (MRT), an innovative type of Spatially Fractionated Radiotherapy, can control murine melanoma by activating the host's own immune system. The beneficial effects are very pronounced in comparison to uniform radiotherapy, traditionally employed in the clinic. Our results displayed that MRT increased antigen presentation, activating Cytotoxic T Lymphocytes (CTLs) which are essential to MRT's treatment efficacy in melanoma. Depletion of CTLs abrogated treatment response. Multiplex nucleic acid hybridization technology revealed key features of lymphocyte populations such as proliferation, differentiation, and ligand-receptor interactions. In addition, CTLs were shown to be essential for locoregional metastatic control and systemic abscopal effects confirmed by activation of antigen presenting cells and CTL trafficking in the tumour-draining lymph nodes. MRT induces a robust antitumour immune response, matching the characteristics of in situ vaccination, that could be exploited to treat a variety of treatment-resistant malignancies., 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. Published by Elsevier B.V.)

Published
2024
Full Text
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28. The contribution of the sphingosine 1-phosphate signaling pathway to chronic kidney diseases: recent findings and new perspectives.

Author

Schwalm S, Manaila R, Oftring A, Schaefer L, von Gunten S, and Pfeilschifter J

Abstract

Chronic kidney disease (CKD) is a multifactorial condition with diverse etiologies, such as diabetes mellitus, hypertension, and genetic disorders, often culminating in end-stage renal disease (ESRD). A hallmark of CKD progression is kidney fibrosis, characterized by the excessive accumulation of extracellular matrix components, for which there is currently no effective anti-fibrotic therapy. Recent literature highlights the critical role of sphingosine 1-phosphate (S1P) signaling in CKD pathogenesis and renal fibrosis. This review provides an in-depth analysis of the latest findings on S1P metabolism and signaling in renal fibrosis and in specific CKDs, including diabetic nephropathy (DN), lupus nephritis (LN), focal segmental glomerulosclerosis (FSGS), Fabry disease (FD), and IgA nephropathy (IgAN). Emerging studies underscore the therapeutic potential of modulating S1P signaling with receptor modulators and inhibitors, such as fingolimod (FTY720) and more selective agents like ozanimod and cenerimod. Additionally, the current knowledge about the effects of established kidney protective therapies such as glucocorticoids and SGLT2 and ACE inhibitors on S1P signaling will be summarized. Furthermore, the review highlights the potential role of S1P as a biomarker for disease progression in CKD models, particularly in Fabry disease and diabetic nephropathy. Advanced technologies, including spatial transcriptomics, are further refining our understanding of S1P's role within specific kidney compartments. Collectively, these insights emphasize the need for continued research into S1P signaling pathways as promising targets for CKD treatment strategies., (© 2024. The Author(s).)

Published
2024
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29. Reusable glycan microarrays using a microwave assisted wet-erase (MAWE) process.

Author

Mehta AY, Tilton CA, Muerner L, von Gunten S, Heimburg-Molinaro J, and Cummings RD

Subjects
Microarray Analysis methods, Lectins metabolism, Polysaccharides metabolism, Microwaves, Carrier Proteins metabolism
Abstract

Modern studies on binding of proteins to glycans commonly involve the use of synthetic glycans and their derivatives in which a small amount of the material is covalently printed onto a functionalized slide in a glycan microarray format. While incredibly useful to explore binding interactions with many types of samples, the common techniques involve drying the slides, which leads to irreversible association of the protein to the spots on slides to which they bound, thus limiting a microarray to a single use. We have developed a new technique which we term Microwave Assisted Wet-Erase (MAWE) glycan microarrays. In this approach we image the slides under wet conditions to acquire the data, after which the slides are cleaned of binding proteins by treatment with a denaturing SDS solution along with microwave treatment. Slides cleaned in this way can be reused multiple times, and an example here shows the reuse of a single array 15 times. We also demonstrate that this method can be used for a single-array per slide or multi-array per slide platforms. Importantly, the results obtained using this technique for a variety of lectins sequentially applied to a single array, are concordant to those obtained via the classical dry approaches on multiple slides. We also demonstrate that MAWE can be used for different types of samples, such as serum for antibody binding, and whole cells, such as yeast. This technique will greatly conserve precious glycans and prolong the use of existing and new glycan microarrays., (© The Author(s) 2023. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2024
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31. Coatsome-replicon vehicles: Self-replicating RNA vaccines against infectious diseases.

Author

Démoulins T, Schulze K, Ebensen T, Techakriengkrai N, Nedumpun T, Englezou PC, Gerber M, Hlushchuk R, Toledo D, Djonov V, von Gunten S, McCullough KC, Liniger M, Guzmán CA, Suradhat S, and Ruggli N

Subjects
Swine, Mice, Animals, Antigens, Replicon genetics, RNA genetics, Communicable Diseases genetics
Abstract

Herein, we provide the first description of a synthetic delivery method for self-replicating replicon RNAs (RepRNA) derived from classical swine fever virus (CSFV) using a Coatsome-replicon vehicle based on Coatsome® SS technologies. This results in an unprecedented efficacy when compared to well-established polyplexes, with up to ∼65 fold-increase of the synthesis of RepRNA-encoded gene of interest (GOI). We demonstrated the efficacy of such Coatsome-replicon vehicles for RepRNA-mediated induction of CD8 T-cell responses in mice. Moreover, we provide new insights on physical properties of the RepRNA, showing that the removal of all CSFV structural protein genes has a positive effect on the translation of the GOI. Finally, we successfully engineered RepRNA constructs encoding a porcine reproductive and respiratory syndrome virus (PRRSV) antigen, providing an example of antigen expression with potential application to combat viral diseases. The versatility and simplicity of modifying and manufacturing these Coatsome-replicon vehicle formulations represents a major asset to tackle foreseeable emerging pandemics., Competing Interests: Declaration of competing interest A patent for the application of delivery vehicles for the delivery of RepRNA vaccines to DCs using replicons derived from classical swine fever virus, as employed in this paper, has been filed in Europe and granted in USA, Canada, and India, with priority date of 4 June 2008. The filing was by Kenneth C. McCullough, Nicolas Ruggli and Jon Duri Tratschin (all three as inventors) (WO 2009146867), and assigned to their employer – the Institute of Virology and Immunology IVI. This does not alter the authors' adherence to the policies of sharing data and materials. Carlos A. Guzmán and Thomas Ebensen are named as inventors in a patent application covering the use of c-di-AMP as adjuvant (PCT/EP 2006010693)., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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32. Role of pulmonary epithelial arginase-II in activation of fibroblasts and lung inflammaging.

Author

Zhu C, Potenza DM, Yang Y, Ajalbert G, Mertz KD, von Gunten S, Ming XF, and Yang Z

Subjects
Male, Female, Mice, Humans, Animals, Lung pathology, Cytokines metabolism, Fibroblasts metabolism, Fibrosis, Transforming Growth Factor beta1 metabolism, Arginase genetics, Arginase metabolism
Abstract

Elevated arginases including type-I (Arg-I) and type-II isoenzyme (Arg-II) are reported to play a role in aging, age-associated organ inflammaging, and fibrosis. A role of arginase in pulmonary aging and underlying mechanisms are not explored. Our present study shows increased Arg-II levels in aging lung of female mice, which is detected in bronchial ciliated epithelium, club cells, alveolar type 2 (AT2) pneumocytes, and fibroblasts (but not vascular endothelial and smooth muscle cells). Similar cellular localization of Arg-II is also observed in human lung biopsies. The age-associated increase in lung fibrosis and inflammatory cytokines, including IL-1β and TGF-β1 that are highly expressed in bronchial epithelium, AT2 cells, and fibroblasts, are ameliorated in arg-ii deficient (arg-ii -/- ) mice. The effects of arg-ii -/- on lung inflammaging are weaker in male as compared to female animals. Conditioned medium (CM) from human Arg-II-positive bronchial and alveolar epithelial cells, but not that from arg-ii -/- cells, activates fibroblasts to produce various cytokines including TGF-β1 and collagen, which is abolished by IL-1β receptor antagonist or TGF-β type I receptor blocker. Conversely, TGF-β1 or IL-1β also increases Arg-II expression. In the mouse models, we confirmed the age-associated increase in IL-1β and TGF-β1 in epithelial cells and activation of fibroblasts, which is inhibited in arg-ii -/- mice. Taken together, our study demonstrates a critical role of epithelial Arg-II in activation of pulmonary fibroblasts via paracrine release of IL-1β and TGF-β1, contributing to pulmonary inflammaging and fibrosis. The results provide a novel mechanistic insight in the role of Arg-II in pulmonary aging., (© 2023 The Authors. Aging Cell published by Anatomical Society and John Wiley & Sons Ltd.)

Published
2023
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33. Antibody diversity in IVIG: Therapeutic opportunities for novel immunotherapeutic drugs.

Author

von Gunten S, Schneider C, Imamovic L, and Gorochov G

Subjects
Humans, Immunoglobulin G therapeutic use, Antibody Diversity, Immunization, Passive, Immunoglobulin A therapeutic use, Immunoglobulins, Intravenous therapeutic use, Immunologic Deficiency Syndromes
Abstract

Significant progress has been made in the elucidation of human antibody repertoires. Furthermore, non-canonical functions of antibodies have been identified that reach beyond classical functions linked to protection from pathogens. Polyclonal immunoglobulin preparations such as IVIG and SCIG represent the IgG repertoire of the donor population and will likely remain the cornerstone of antibody replacement therapy in immunodeficiencies. However, novel evidence suggests that pooled IgA might promote orthobiotic microbial colonization in gut dysbiosis linked to mucosal IgA immunodeficiency. Plasma-derived polyclonal IgG and IgA exhibit immunoregulatory effects by a diversity of different mechanisms, which have inspired the development of novel drugs. Here we highlight recent insights into IgG and IgA repertoires and discuss potential implications for polyclonal immunoglobulin therapy and inspired drugs., Competing Interests: CS is currently employed by CSL Behring AG, Bern, Switzerland. All the relevant work of CS contributing to this manuscript has been performed during his employment at the University of Bern. The laboratory of SG receives research funding from CSL Behring AG, Bern, Switzerland. The remaining 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. The handling editor JD declared a shared parent affiliation with the authors LI and GG at the time of review., (Copyright © 2023 von Gunten, Schneider, Imamovic and Gorochov.)

Published
2023
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34. Modulation of Neutrophil Function by Recombinant Human IgG1 Fc Hexamer in the Endogenous K/BxN Mouse Model of Rheumatoid Arthritis.

Author

Almizraq RJ, Frias Boligan K, Lewis BJB, Cen S, Whetstone H, Spirig R, Käsermann F, Campbell IK, von Gunten S, and Branch DR

Subjects
Humans, Mice, Animals, Immunoglobulin G metabolism, Neutrophils metabolism, Neutrophils pathology, Uridine Triphosphate metabolism, Disease Models, Animal, Immunologic Factors, Mice, Inbred C57BL, Arthritis, Rheumatoid pathology, Arthritis, Experimental
Abstract

Introduction: Neutrophils are a pivotal cell type in the K/BxN mouse model of rheumatoid arthritis and play an essential role in the progression of the arthritis. They are readily activated by immune complexes (ICs) via their FcγRs to release IL-1β in addition to other cytokines, which are inducing cartilage destruction. Neutrophils also release neutrophil-active chemokines to recruit themselves in an autocrine manner to perpetuate tissue destruction. FcγR-expression on neutrophils is of crucial importance for the recognition of ICs., Methods: In this study, due to its high avidity for binding to FcγRs, we investigated the potential anti-inflammatory effect of a recombinant IgG1 Fc hexamer (rFc-µTP-L309C) on neutrophils in the K/BxN mouse model of endogenously generated chronic arthritis. 200 mg/kg rFc-µTP-L309C and human serum albumin (HSA), used as controls, were administered subcutaneously every other day. Mouse ankle joints were monitored daily to generate a clinical score. Immunohistology was used to evaluate neutrophil infiltration and TUNEL to assess apoptosis. ELISA was used to measure IL-1β., Results: Treatment with rFc-µTP-L309C, but not HSA, was able to significantly ameliorate the arthritis in the K/BxN mice. Significant neutrophil infiltration into the ankle joint was found, but treatment with rFc-µTP-L309C resulted in significantly less neutrophil infiltration. There was no significant influence of rFc-µTP-L309C on neutrophil death or apoptosis. Less neutrophil infiltration could not be correlated to chemokine-mediated migration. Significantly less IL-1β was measured in mice treated with rFc-µTP-L309C., Conclusion: In the endogenous K/BxN mouse model of rheumatoid arthritis, amelioration can be explained in part by inhibition of neutrophil infiltration into the joints as well as inhibition of IL-1β production. Given the observed inhibitory properties on neutrophils, rFc-µTP-L309C may be a potential therapeutic candidate to treat autoimmune and inflammatory conditions in which neutrophils are the predominant cell type involved in pathogenesis., (© 2023 The Author(s). Published by S. Karger AG, Basel.)

Published
2023
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35. Siglec-7 represents a glyco-immune checkpoint for non-exhausted effector memory CD8+ T cells with high functional and metabolic capacities.

Author

Haas Q, Markov N, Muerner L, Rubino V, Benjak A, Haubitz M, Baerlocher GM, Ng CKY, Münz C, Riether C, Ochsenbein AF, Simon HU, and von Gunten S

Subjects
Antigens, Differentiation, Myelomonocytic, CD8-Positive T-Lymphocytes, Humans, Lectins, Sialic Acid Binding Immunoglobulin-like Lectins, Actins, Leukemia, Myeloid, Acute
Abstract

While inhibitory Siglec receptors are known to regulate myeloid cells, less is known about their expression and function in lymphocytes subsets. Here we identified Siglec-7 as a glyco-immune checkpoint expressed on non-exhausted effector memory CD8+ T cells that exhibit high functional and metabolic capacities. Seahorse analysis revealed higher basal respiration and glycolysis levels of Siglec-7 + CD8+ T cells in steady state, and particularly upon activation. Siglec-7 polarization into the T cell immune synapse was dependent on sialoglycan interactions in trans and prevented actin polarization and effective T cell responses. Siglec-7 ligands were found to be expressed on both leukemic stem cells and acute myeloid leukemia (AML) cells suggesting the occurrence of glyco-immune checkpoints for Siglec-7 + CD8+ T cells, which were found in patients' peripheral blood and bone marrow. Our findings project Siglec-7 as a glyco-immune checkpoint and therapeutic target for T cell-driven disorders and cancer., Competing Interests: SG receives remuneration for serving on the scientific advisory board of Palleon Pharmaceuticals. The remaining 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 Haas, Markov, Muerner, Rubino, Benjak, Haubitz, Baerlocher, Ng, Münz, Riether, Ochsenbein, Simon and von Gunten.)

Published
2022
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36. Therapeutic antibody glycosylation impacts antigen recognition and immunogenicity.

Author

Wolf B, Piksa M, Beley I, Patoux A, Besson T, Cordier V, Voedisch B, Schindler P, Stöllner D, Perrot L, von Gunten S, Brees D, and Kammüller M

Subjects
Glycosylation, Polysaccharides metabolism, T-Lymphocytes, Antigen Presentation, Lymphocyte Activation
Abstract

In this study we show that glycosylation is relevant for immune recognition of therapeutic antibodies, and that defined glycan structures can modulate immunogenicity. Concerns regarding immunogenicity arise from the high heterogeneity in glycosylation that is difficult to control and can deviate from human glycosylation if produced in non-human cell lines. While non-human glycosylation is thought to cause hypersensitivity reactions and immunogenicity, less is known about effects of Fc-associated glycan structures on immune cell responses. We postulated that glycosylation influences antigen recognition and subsequently humoral responses to therapeutic antibodies by modulating 1) recognition and uptake by dendritic cells (DCs), and 2) antigen routing, processing and presentation. Here, we compared different glycosylation variants of the antibody rituximab (RTX) in in vitro assays using human DCs and T cells as well as in in vivo studies. We found that human DCs bind and internalize unmodified RTX stronger compared to its aglycosylated form suggesting that glycosylation mediates uptake after recognition by glycan-specific receptors. Furthermore, we show that DC-uptake of RTX increases or decreases if glycosylation is selectively modified to recognize activating (by mannosylation) or inhibitory lectin receptors (by sialylation). Moreover, glycosylation seems to influence antigen presentation by DCs because specific glycovariants tend to induce either stronger or weaker T cell activation. Finally, we demonstrate that antibody glycosylation impacts anti-drug antibody (ADA) responses to RTX in vivo. Hence, defined glycan structures can modulate immune recognition and alter ADA responses. Glyco-engineering may help to decrease clinical immunogenicity and ADA-associated adverse events such as hypersensitivity reactions., (© 2022 John Wiley & Sons Ltd.)

Published
2022
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38. The Choice between Intravenous and Subcutaneous Immunoglobulins: Aspects for Consideration.

Author

von Achenbach C, Hevia Hernandez G, and von Gunten S

Subjects
Humans, Immunoglobulins, Intravenous therapeutic use, Administration, Intravenous, Immunoglobulins therapeutic use, Immunologic Deficiency Syndromes drug therapy
Abstract

Background: Intravenous immunoglobulin and subcutaneous immunoglobulin preparations are used to treat primary and secondary immunodeficiencies, as well as autoimmune and inflammatory conditions., Summary: For certain indications, only defined formulations or routes of administration are approved by health authorities. However, for other diseases, there are more options, and treatment decisions may be based on different aspects, such as patient conditions and preferences, pharmacokinetics, or pharmacoeconomic considerations., Key Messages: Understanding the two different treatment modalities may support the decision-making for the optimal therapeutic option for individual patients. This review summarizes the latest insights into the direct and indirect comparison between the two types of products., (© 2022 S. Karger AG, Basel.)

Published
2022
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39. The Distinct Roles of Sialyltransferases in Cancer Biology and Onco-Immunology.

Author

Hugonnet M, Singh P, Haas Q, and von Gunten S

Subjects
Animals, Glycosylation, Humans, Isoenzymes, Neoplasms immunology, Neoplasms metabolism, Protein Processing, Post-Translational, Substrate Specificity, Neoplasms enzymology, Selectins metabolism, Sialic Acid Binding Immunoglobulin-like Lectins metabolism, Sialic Acids metabolism, Sialyltransferases metabolism
Abstract

Aberrant glycosylation is a key feature of malignant transformation. Hypersialylation, the enhanced expression of sialic acid-terminated glycoconjugates on the cell surface, has been linked to immune evasion and metastatic spread, eventually by interaction with sialoglycan-binding lectins, including Siglecs and selectins. The biosynthesis of tumor-associated sialoglycans involves sialyltransferases, which are differentially expressed in cancer cells. In this review article, we provide an overview of the twenty human sialyltransferases and their roles in cancer biology and immunity. A better understanding of the individual contribution of select sialyltransferases to the tumor sialome may lead to more personalized strategies for the treatment of cancer., Competing Interests: SVG received remuneration for serving on the scientific advisory board of Palleon Pharmaceuticals. The remaining 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 © 2021 Hugonnet, Singh, Haas and von Gunten.)

Published
2021
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40. Targeting sialylation to treat central nervous system diseases.

Author

Lünemann JD, von Gunten S, and Neumann H

Subjects
Central Nervous System metabolism, Humans, Sialic Acid Binding Immunoglobulin-like Lectins metabolism, Central Nervous System Diseases drug therapy, N-Acetylneuraminic Acid metabolism
Abstract

Sialic acid-binding immunoglobulin-type lectins (SIGLECs) are membrane receptors that are preferentially expressed on immune cells and recognize sialylated proteins, lipids, and RNA. Sialic acids and signaling through SIGLECs are increasingly recognized for their essential roles in immune system homeostasis as well as nervous system development, plasticity, and repair. Dysregulated sialylation and SIGLEC dysfunctions contribute to several chronic diseases of the central nervous system (CNS) in which current therapeutic options are very limited. While only a few therapies targeting SIGLECs are currently being tested in clinical trials, the area emerged as one of the most dynamic and active fields in glycobiology and drug development. This review highlights recent insights into sialic acid and SIGLEC function in CNS pathologies and illustrates opportunities and challenges for the development of sialic acid-based and SIGLEC-targeted therapies for neurological diseases., Competing Interests: Declaration of interests J.D.L. has received speaker fees, research support, and/or served on advisory boards at the Swiss National Science Foundation, the Swiss Multiple Sclerosis Society, AbbVie, Alexion, ArgenX, Bayer AG, Biogen Inc, Sanofi Genzyme, Merck & Co., Novartis AG, F. Hoffmann-La Roche. H.N. is named inventor on a patent related to the use of polysialic acid as a treatment of neurodegenerative diseases (patent family to WO2014154537A1) that is assigned to the University of Bonn and University Hospital of Cologne. S.V.G. receives remuneration for serving on the scientific advisory board of Palleon Pharmaceuticals., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2021
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41. Parallelism of intestinal secretory IgA shapes functional microbial fitness.

Author

Rollenske T, Burkhalter S, Muerner L, von Gunten S, Lukasiewicz J, Wardemann H, and Macpherson AJ

Subjects
Animals, Antibodies, Monoclonal immunology, Antigens, Bacterial immunology, Escherichia coli, Germ-Free Life, Mice, Mice, Inbred C57BL, Porins immunology, Immunoglobulin A, Secretory immunology, Intestines immunology, Microbiota immunology, Plasma Cells immunology
Abstract

Dimeric IgA secreted across mucous membranes in response to nonpathogenic taxa of the microbiota accounts for most antibody production in mammals. Diverse binding specificities can be detected within the polyclonal mucosal IgA antibody response 1-10 , but limited monoclonal hybridomas have been studied to relate antigen specificity or polyreactive binding to functional effects on microbial physiology in vivo 11-17 . Here we use recombinant dimeric monoclonal IgAs (mIgAs) to finely map the intestinal plasma cell response to microbial colonization with a single microorganism in mice. We identify a range of antigen-specific mIgA molecules targeting defined surface and nonsurface membrane antigens. Secretion of individual dimeric mIgAs targeting different antigens in vivo showed distinct alterations in the function and metabolism of intestinal bacteria, largely through specific binding. Even in cases in which the same microbial antigen is targeted, microbial metabolic alterations differed depending on IgA epitope specificity. By contrast, bacterial surface coating generally reduced motility and limited bile acid toxicity. The overall intestinal IgA response to a single microbe therefore contains parallel components with distinct effects on microbial carbon-source uptake, bacteriophage susceptibility, motility and membrane integrity., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2021
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42. Lack of IRF6 Disrupts Human Epithelial Homeostasis by Altering Colony Morphology, Migration Pattern, and Differentiation Potential of Keratinocytes.

Author

Girousi E, Muerner L, Parisi L, Rihs S, von Gunten S, Katsaros C, and Degen M

Abstract

Variants within the gene encoding for the transcription factor Interferon Regulatory Factor 6 (IRF6) are associated with syndromic and non-syndromic Cleft Lip/Palate (CLP) cases. IRF6 plays a vital role in the regulation of the proliferation/differentiation balance in keratinocytes and is involved in wound healing and migration. Since a fraction of CLP patients undergoing corrective cleft surgery experience wound healing complications, IRF6 represents an interesting candidate gene linking the two processes. However, Irf6 function has been mainly studied in mice and knowledge on IRF6 in human cells remains sparse. Here, we aimed to elucidate the role of IRF6 in human postnatal skin- and oral mucosa-derived keratinocytes. To do so, we applied CRISPR/Cas9 to ablate IRF6 in two TERT-immortalized keratinocyte cultures, which we used as model cell lines. We show that IRF6 controls the appearance of single cells and colonies, with the latter being less cohesive in its absence. Consequently, IRF6 knockout keratinocytes often moved as single cells instead of a collective epithelial sheet migration but maintained their epithelial character. Lack of IRF6 triggered severe keratinocyte differentiation defects, which were already apparent in the stratum spinosum and extended to the stratum corneum in 3D organotypic skin cultures, while it did not alter their growth rate. Finally, proteomics revealed that most of the differentially expressed proteins in the absence of IRF6 could be associated with differentiation, cell-cell adhesion as well as immune response. Our data expand the knowledge on IRF6 in human postnatal keratinocytes, which will help to better understand IRF6-related pathologies., 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 © 2021 Girousi, Muerner, Parisi, Rihs, von Gunten, Katsaros and Degen.)

Published
2021
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43. Glycan-specific IgG anti-IgE autoantibodies are protective against allergic anaphylaxis in a murine model.

Author

Engeroff P, Plattner K, Storni F, Thoms F, Frias Boligan K, Muerner L, Eggel A, von Gunten S, Bachmann MF, and Vogel M

Subjects
Allergens administration & dosage, Animals, Disease Models, Animal, Glycoproteins administration & dosage, Humans, Immunoglobulin E administration & dosage, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Knockout, Mice, Antibodies, Anti-Idiotypic immunology, Autoantibodies immunology, Hypersensitivity immunology, Immunoglobulin G immunology, Polysaccharides immunology
Abstract

Background: IgE causes anaphylaxis in type I hypersensitivity diseases by activating degranulation of effector cells such as mast cells and basophils. The mechanisms that control IgE activity and prevent anaphylaxis under normal conditions are still enigmatic., Objective: We aimed to unravel how anti-IgE autoantibodies are induced and we aimed to understand their role in regulating serum IgE level and allergic anaphylaxis., Methods: We immunized mice with different forms of IgE and tested anti-IgE autoantibody responses and their specificities. We then analyzed the effect of those antibodies on serum kinetics and their in vitro and in vivo impact on anaphylaxis. Finally, we investigated anti-IgE autoantibodies in human sera., Results: Immunization of mice with IgE-immune complexes induced glycan-specific anti-IgE autoantibodies. The anti-IgE autoantibodies prevented effector cell sensitization, reduced total IgE serum levels, protected mice from passive and active IgE sensitization, and resulted in cross-protection against different allergens. Furthermore, glycan-specific anti-IgE autoantibodies were present in sera from subjects with allergy and subjects without allergy., Conclusion: In conclusion, this study provided the first evidence that in the murine model, the serum level and anaphylactic activity of IgE may be downregulated by glycan-specific IgG anti-IgE autoantibodies., (Copyright © 2021. Published by Elsevier Inc.)

Published
2021
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44. Digest the Sugar, Kill the Parasite: A New Experimental Concept in Treating Alveolar Echinococcosis.

Author

Wang J, von Gunten S, Beldi G, Grandgirard D, Leib SL, and Gottstein B

Subjects
Animals, CD4-Positive T-Lymphocytes immunology, CD4-Positive T-Lymphocytes metabolism, Cells, Cultured, Culture Media, Echinococcosis parasitology, Echinococcus multilocularis immunology, Echinococcus multilocularis ultrastructure, Female, Flow Cytometry, Interleukin-10 immunology, Interleukin-10 metabolism, Mice, Mice, Inbred C57BL, Microscopy, Polysaccharides chemistry, Programmed Cell Death 1 Receptor immunology, Programmed Cell Death 1 Receptor metabolism, Echinococcosis therapy, Echinococcus multilocularis chemistry, Echinococcus multilocularis drug effects, Galactosidases pharmacology, Sugars chemistry
Abstract

Introduction: The E. multilocularis laminated layer (LL) is a heavily glycosylated parasitic structure that plays an important role in protecting the larval stage (metacestode) of this parasite from physiological and immunological host reactions. We elaborated an experimental design with the idea to modify the (glycan) surface of the LL by a targeted digestion. This should allow the host defense to more easily recognize and attack (or kill) the parasite by immune-mediated effects., Methods: Experimentally, E. multilocularis (clone H95) metacestodes were cultured in vitro with or without addition of α1-3,4,6-galactosidase or β1-3-galactosidase in the medium. Morphological changes were subsequently measured by microscopy at different time points. Parasites were then recovered at day 5 and reinjected into mice for assessing their viability and infectious status. For finally recovered parasites, the respective load was assessed ex vivo by wet weight measurement, and host-related PD1 and IL-10 levels were determined as the key immunoregulators by using flow cytometry., Results: Our experiments demonstrated that the parasite vesicular structure can be directly destroyed by adding galactosidases into the in vitro culture system, resulting in the fact that the parasite metacestode vesicles could not anymore infect and develop in mice after this glycan digestion. Moreover, when compared to the mice inoculated with E. multilocularis metacestode without galactosidases, PD1 expression was upregulated in CD4+ Teffs from mice inoculated with E. multilocularis metacestode pretreated with β1-3-galactosidase, with a lower IL-10 secretion from CD4+ Teffs; there was no difference of PD1 and IL-10 expression levels regarding CD4+ Teff from mice inoculated with E. multilocularis metacestode pretreated with α1-3,4,6-galac-tosidase., Discussion: We raised our hypothesis that this "aborting" effect may be linked to an altered PD1 and IL-10 response fine-tuning between immunopathology and immune protection. These findings justify a continuation of these experiments upon therapeutical in vivo administration of the enzymes., (© 2020 S. Karger AG, Basel.)

Published
2021
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47. Arginase-II promotes melanoma migration and adhesion through enhancing hydrogen peroxide production and STAT3 signaling.

Author

Yu Y, Ladeiras D, Xiong Y, Boligan KF, Liang X, von Gunten S, Hunger RE, Ming XF, and Yang Z

Subjects
Animals, Arginase antagonists & inhibitors, Cell Adhesion drug effects, Cell Line, Tumor, Cell Movement drug effects, Cell Proliferation drug effects, Endothelial Cells drug effects, Gene Expression Regulation, Neoplastic drug effects, Humans, Hydrogen Peroxide metabolism, Melanoma genetics, Signal Transduction drug effects, Arginase genetics, Enzyme Inhibitors pharmacology, Melanoma drug therapy, STAT3 Transcription Factor genetics
Abstract

Elevated arginase type II (Arg-II) associates with higher grade tumors. Its function and underlying molecular mechanisms in melanoma remain elusive. In the present study, we observed a significantly higher frequency of Arg-II expression in melanoma of patients with metastasis than those without metastasis. Silencing Arg-II in two human melanoma cell lines slowed down the cell growth, while overexpression of native but not a catalytically inactive Arg-II promoted cell proliferation without affecting cell death. Treatment of cells with arginase inhibitor also reduced melanoma cell number, demonstrating that Arg-II promotes melanoma cell proliferation dependently of its enzymatic activity. However, results from silencing Arg-II or overexpressing native or the inactive Arg-II as well as treatment with arginase inhibitor showed that Arg-II promotes melanoma metastasis-related processes, such as melanoma cell migration and adhesion on endothelial cells, independently of its enzymatic activity. Moreover, the treatment of the cells with STAT3 inhibitor suppressed Arg-II-promoted melanoma cell migration and adhesion. Furthermore, catalase, but not superoxide dismutase, prevented STAT3 activation as well as increased melanoma cell migration and adhesion induced by overexpressing native or the inactive Arg-II. Taken together, our study uncovers both activity-dependent and independent mechanisms of Arg-II in promoting melanoma progression. While Arg-II enhances melanoma cell proliferation through polyamine dependently of its enzymatic activity, it promotes metastasis-related processes, that is, migration and adhesion onto endothelial cell, through mitochondrial H 2 O 2 -STAT3 pathway independently of the enzymatic activity. Suppressing Arg-II expression rather than inhibiting its enzymatic activity may, therefore, represent a novel strategy for the treatment of melanoma., (© 2020 Wiley Periodicals LLC.)

Published
2020
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48. IgA Triggers Cell Death of Neutrophils When Primed by Inflammatory Mediators.

Author

Wehrli M, Schneider C, Cortinas-Elizondo F, Verschoor D, Frias Boligan K, Adams OJ, Hlushchuk R, Engelmann C, Daudel F, Villiger PM, Seibold F, Yawalkar N, Vonarburg C, Miescher S, Lötscher M, Kaufmann T, Münz C, Mueller C, Djonov V, Simon HU, and von Gunten S

Subjects
Animals, Apoptosis drug effects, Apoptosis immunology, Arthritis, Rheumatoid blood, Arthritis, Rheumatoid immunology, Cell Survival drug effects, Cell Survival immunology, Cells, Cultured, Coculture Techniques, Crohn Disease blood, Crohn Disease immunology, Humans, Immunoglobulin A therapeutic use, Immunoglobulins, Intravenous pharmacology, Immunoglobulins, Intravenous therapeutic use, Macrophages, Mice, Neutrophils immunology, Primary Cell Culture, Sepsis blood, Sepsis immunology, Arthritis, Rheumatoid drug therapy, Crohn Disease drug therapy, Immunoglobulin A pharmacology, Neutrophils drug effects, Sepsis drug therapy
Abstract

IVIG preparations consisting of pooled IgG are increasingly used for the treatment of autoimmune diseases. IVIG is known to regulate the viability of immune cells, including neutrophils. We report that plasma-derived IgA efficiently triggers death of neutrophils primed by cytokines or TLR agonists. IgA-mediated programmed neutrophil death was PI3K-, p38 MAPK-, and JNK-dependent and evoked anti-inflammatory cytokines in macrophage cocultures. Neutrophils from patients with acute Crohn's disease, rheumatoid arthritis, or sepsis were susceptible to both IgA- and IVIG-mediated death. In contrast to IVIG, IgA did not promote cell death of quiescent neutrophils. Our findings suggest that plasma-derived IgA might provide a therapeutic option for the treatment of neutrophil-associated inflammatory disorders., (Copyright © 2020 by The American Association of Immunologists, Inc.)

Published
2020
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49. Unique repertoire of anti-carbohydrate antibodies in individual human serum.

Author

Luetscher RND, McKitrick TR, Gao C, Mehta AY, McQuillan AM, Kardish R, Boligan KF, Song X, Lu L, Heimburg-Molinaro J, von Gunten S, Alter G, and Cummings RD

Subjects
ABO Blood-Group System immunology, Adult, Animals, Female, Humans, Immunity, Humoral immunology, Immunoglobulin G blood, Immunoglobulin M blood, Male, Middle Aged, Polysaccharides immunology, Young Adult, Antibodies blood, Antigens immunology, Carbohydrates immunology, Serum immunology
Abstract

Humoral immunity to pathogens and other environmental challenges is paramount to maintain normal health, and individuals lacking or unable to make antibodies are at risk. Recent studies indicate that many human protective antibodies are against carbohydrate antigens; however, little is known about repertoires and individual variation of anti-carbohydrate antibodies in healthy individuals. Here we analyzed anti-carbohydrate antibody repertoires (ACARs) of 105 healthy individual adult donors, aged 20-60 + from different ethnic backgrounds to explore variations in antibodies, as defined by binding to glycan microarrays and by affinity purification. Using microarrays that contained > 1,000 glycans, including antigens from animal cells and microbes, we profiled the IgG and IgM ACARs from all donors. Each donor expressed many ACAs, but had a relatively unique ACAR, which included unanticipated antibodies to carbohydrate antigens not well studied, such as chitin oligosaccharides, Forssman-related antigens, globo-type antigens, and bacterial glycans. We also saw some expected antibodies to ABO(H) blood group and α-Gal-type antigens, although these also varied among individuals. Analysis suggests differences in ACARs are associated with ethnicity and age. Thus, each individual ACAR is relatively unique, suggesting that individualized information could be useful in precision medicine for predicting and monitoring immune health and resistance to disease.

Published
2020
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50. Enhanced Pro-apoptotic Effects of Fe(II)-Modified IVIG on Human Neutrophils.

Author

Graeter S, Schneider C, Verschoor D, von Däniken S, Seibold F, Yawalkar N, Villiger P, Dimitrov JD, Smith DF, Cummings RD, Simon HU, Vassilev T, and von Gunten S

Subjects
Arthritis, Rheumatoid immunology, Crohn Disease immunology, Humans, Hydrogen-Ion Concentration, Apoptosis drug effects, Ferrous Compounds chemistry, Immunoglobulins, Intravenous chemistry, Immunoglobulins, Intravenous pharmacology, Neutrophils drug effects
Abstract

Mild modification of intravenous immunoglobulin (IVIG) has been reported to result in enhanced polyspecificity and leveraged therapeutic effects in animal models of inflammation. Here, we observed that IVIG modification by ferrous ions, heme or low pH exposure, shifted the repertoires of specificities in different directions. Ferrous ions exposed Fe(II)-IVIG, but not heme or low pH exposed IVIG, showed increased pro-apoptotic effects on neutrophil granulocytes that relied on a FAS-dependent mechanism. These effects were also observed in human neutrophils primed by inflammatory mediators or rheumatoid arthritis joint fluid in vitro , or patient neutrophils ex vivo from acute Crohn's disease. These observations indicate that IVIG-mediated effects on cells can be enhanced by IVIG modification, yet specific modification conditions may be required to target specific molecular pathways and eventually to enhance the therapeutic potential., (Copyright © 2020 Graeter, Schneider, Verschoor, von Däniken, Seibold, Yawalkar, Villiger, Dimitrov, Smith, Cummings, Simon, Vassilev and von Gunten.)

Published
2020
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