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

Author

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

Abstract

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

Published
2019

3. Ectopic colonization of oral bacteria in the intestine drives TH1 cell induction and inflammation

Author

Atarashi, K, Suda, W, Luo, C, Kawaguchi, T, Motoo, I, Narushima, S, Kiguchi, Y, Yasuma, K, Watanabe, E, Tanoue, T, Thaiss, CA, Sato, M, Toyooka, K, Said, HS, Yamagami, H, Rice, SA, Gevers, D, Johnson, RC, Segre, JA, Chen, K, Kolls, JK, Elinav, E, Morita, H, Xavier, RJ, Hattori, M, Honda, K, Atarashi, K, Suda, W, Luo, C, Kawaguchi, T, Motoo, I, Narushima, S, Kiguchi, Y, Yasuma, K, Watanabe, E, Tanoue, T, Thaiss, CA, Sato, M, Toyooka, K, Said, HS, Yamagami, H, Rice, SA, Gevers, D, Johnson, RC, Segre, JA, Chen, K, Kolls, JK, Elinav, E, Morita, H, Xavier, RJ, Hattori, M, and Honda, K

Abstract

Intestinal colonization by bacteria of oral origin has been correlated with several negative health outcomes, including inflammatory bowel disease. However, a causal role of oral bacteria ectopically colonizing the intestine remains unclear. Using gnotobiotic techniques, we show that strains of Klebsiella spp. isolated from the salivary microbiota are strong inducers of T helper 1 (TH1) cells when they colonize in the gut. These Klebsiella strains are resistant to multiple antibiotics, tend to colonize when the intestinal microbiota is dysbiotic, and elicit a severe gut inflammation in the context of a genetically susceptible host. Our findings suggest that the oral cavity may serve as a reservoir for potential intestinal pathobionts that can exacerbate intestinal disease.

Published
2017

5. The role of IL-27 in susceptibility to post-influenza Staphylococcus aureus pneumonia

Author

Robinson, KM, Lee, B, Scheller, EV, Mandalapu, S, Enelow, RI, Kolls, JK, Alcorn, JF, Robinson, KM, Lee, B, Scheller, EV, Mandalapu, S, Enelow, RI, Kolls, JK, and Alcorn, JF

Abstract

Background: Influenza is a common respiratory virus and Staphylococcus aureus frequently causes secondary pneumonia during influenza infection, leading to increased morbidity and mortality. Influenza has been found to attenuate subsequent Type 17 immunity, enhancing susceptibility to secondary bacterial infections. IL-27 is known to inhibit Type 17 immunity, suggesting a potential critical role for IL-27 in viral and bacterial co-infection.Methods: A murine model of influenza and Staphylococcus aureus infection was used to mimic human viral, bacterial co-infection. C57BL/6 wild-type, IL-27 receptor α knock-out, and IL-10 knock-out mice were infected with Influenza H1N1 (A/PR/8/34) or vehicle for 6 days followed by challenge with Staphylococcus aureus or vehicle for 24 hours. Lung inflammation, bacterial burden, gene expression, and cytokine production were determined.Results: IL-27 receptor α knock-out mice challenged with influenza A had increased morbidity compared to controls, but no change in viral burden. IL-27 receptor α knock-out mice infected with influenza displayed significantly decreased IL-10 production compared to wild-type. IL-27 receptor α knock-out mice co-infected with influenza and S. aureus had improved bacterial clearance compared to wild-type controls. Importantly, there were significantly increased Type 17 responses and decreased IL-10 production in IL-27 receptor α knock-out mice. Dual infected IL-10-/- mice had significantly less bacterial burden compared to dual infected WT mice.Conclusions: These data reveal that IL-27 regulates enhanced susceptibility to S. aureus pneumonia following influenza infection, potentially through the induction of IL-10 and suppression of IL-17.

Published
2015

6. Microbial ligand costimulation drives neutrophilic steroid-refractory asthma

Author

Hadebe, S, Kirstein, F, Fierens, K, Chen, K, Drummond, RA, Vautier, S, Sajaniemi, S, Murray, G, Williams, DL, Redelinghuys, P, Reinhart, TA, Junecko, BAF, Kolls, JK, Lambrecht, BN, Brombacher, F, Brown, GD, Ryffel, B, Hadebe, S, Kirstein, F, Fierens, K, Chen, K, Drummond, RA, Vautier, S, Sajaniemi, S, Murray, G, Williams, DL, Redelinghuys, P, Reinhart, TA, Junecko, BAF, Kolls, JK, Lambrecht, BN, Brombacher, F, Brown, GD, and Ryffel, B

Abstract

Asthma is a heterogeneous disease whose etiology is poorly understood but is likely to involve innate responses to inhaled microbial components that are found in allergens. The influence of these components on pulmonary inflammation has been largely studied in the context of individual agonists, despite knowledge that they can have synergistic effects when used in combination. Here we have explored the effects of LPS and β-glucan, two commonly-encountered microbial agonists, on the pathogenesis of allergic and non-allergic respiratory responses to house dust mite allergen. Notably, sensitization with these micro-bial components in combination acted synergistically to promote robust neutrophilic inflammation, which involved both Dectin-1 and TLR-4. This pulmonary neutrophilic inflammation was corticosteroid-refractory, resembling that found in patients with severe asthma. Thus our results provide key new insights into how microbial components influence the development of respiratory pathology.

Published
2015

7. Vitamin D supplementation decreases Aspergillus fumigatus specific Th2 responses in CF patients with aspergillus sensitization: A phase one open-label study

Author

Nguyen, NLH, Pilewski, JM, Celedón, JC, Mandalapu, S, Blanchard, ML, DeRicco, A, Hartigan, E, Alcorn, JF, Kolls, JK, Nguyen, NLH, Pilewski, JM, Celedón, JC, Mandalapu, S, Blanchard, ML, DeRicco, A, Hartigan, E, Alcorn, JF, and Kolls, JK

Abstract

Background: Patients with cystic fibrosis (CF) complicated by allergic bronchopulmonary aspergillosis (ABPA) are vitamin D deficient and in vitro treatment with 1,25 (OH) vitamin D of CD4+ cells from CF patients with ABPA decreases Aspergillus fumigatus(Af)-induced Th2 responses. This Phase I clinical trial investigated the safety and effectiveness of daily vitamin D supplementation in CF patients with ABPA to reduce allergic responses and ABPA symptoms, and increase serum vitamin D levels. Methods: Seven patients ages 12 years and older with a clinical diagnosis of CF and ABPA with current evidence of Af sensitization received 4000 IU vitamin D (cholecalciferol) daily for 24 weeks. The primary outcome of the study was safety followed by the Aspergillus induced IL-13 response in CD4+ T cells to test the hypothesis that vitamin D supplementation is safe and reduces Aspergillus induced IL-13 responses in CD4+ T cells. Secondary outcomes included total IgE, Aspergillus- specific IgE, vitamin D levels, FEV , urinary calcium/creatinine ratio, and cytokine production by Aspergillus-stimulated peripheral blood T cells. Results: Six months of vitamin D supplementation resulted in significant increases in serum 25-(OH) vitamin D level, and the treatment was well tolerated without evidence of vitamin D toxicity or hypercalcemia. There were no serious adverse events. Daily vitamin D supplementation led to significantly decreased Aspergillus induced IL-13 responses between the baseline visit and that at 24 weeks (p = 0.04). Aspergillus-specific IgE level was also significantly decreased after 8 (p = 0.035) and 24 weeks of daily vitamin D supplementation (p = 0.04). Conclusions: 4000 IU vitamin D daily over a 24-week period is well tolerated in CF patients with a history ABPA and current evidence of Th2 immunity to Af. Daily vitamin D supplementation was associated with reduced Aspergillus induced IL-13 responses from peripheral. CD4+ T cells and Aspergillus-specific IgE levels

Published
2015

8. Unexpected Role for IL-17 in Protective Immunity against Hypervirulent Mycobacterium tuberculosis HN878 Infection

Author

Gopal, R, Monin, L, Slight, S, Uche, U, Blanchard, E, A. Fallert Junecko, B, Ramos-Payan, R, Stallings, CL, Reinhart, TA, Kolls, JK, Kaushal, D, Nagarajan, U, Rangel-Moreno, J, Khader, SA, Gopal, R, Monin, L, Slight, S, Uche, U, Blanchard, E, A. Fallert Junecko, B, Ramos-Payan, R, Stallings, CL, Reinhart, TA, Kolls, JK, Kaushal, D, Nagarajan, U, Rangel-Moreno, J, and Khader, SA

Abstract

Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB), infects one third of the world's population. Among these infections, clinical isolates belonging to the W-Beijing appear to be emerging, representing about 50% of Mtb isolates in East Asia, and about 13% of all Mtb isolates worldwide. In animal models, infection with W-Beijing strain, Mtb HN878, is considered "hypervirulent" as it results in increased mortality and causes exacerbated immunopathology in infected animals. We had previously shown the Interleukin (IL) -17 pathway is dispensable for primary immunity against infection with the lab adapted Mtb H37Rv strain. However, it is not known whether IL-17 has any role to play in protective immunity against infection with clinical Mtb isolates. We report here that lab adapted Mtb strains, such as H37Rv, or less virulent Mtb clinical isolates, such as Mtb CDC1551, do not require IL-17 for protective immunity against infection while infection with Mtb HN878 requires IL-17 for early protective immunity. Unexpectedly, Mtb HN878 induces robust production of IL-1β through a TLR-2-dependent mechanism, which supports potent IL-17 responses. We also show that the role for IL-17 in mediating protective immunity against Mtb HN878 is through IL-17 Receptor signaling in non-hematopoietic cells, mediating the induction of the chemokine, CXCL-13, which is required for localization of T cells within lung lymphoid follicles. Correct T cell localization within lymphoid follicles in the lung is required for maximal macrophage activation and Mtb control. Since IL-17 has a critical role in vaccine-induced immunity against TB, our results have far reaching implications for the design of vaccines and therapies to prevent and treat emerging Mtb strains. In addition, our data changes the existing paradigm that IL-17 is dispensable for primary immunity against Mtb infection, and instead suggests a differential role for IL-17 in early protective immunity against emergi

Published
2014

9. Immune modulatory effects of IL-22 on allergen-induced pulmonary inflammation

Author

Fang, P, Zhou, L, Zhou, Y, Kolls, JK, Zheng, T, Zhu, Z, Fang, P, Zhou, L, Zhou, Y, Kolls, JK, Zheng, T, and Zhu, Z

Abstract

IL-22 is a Th17/Th22 cytokine that is increased in asthma. However, recent animal studies showed controversial findings in the effects of IL-22 in allergic asthma. To determine the role of IL-22 in ovalbumin-induced allergic inflammation we generated inducible lung-specific IL-22 transgenic mice. Transgenic IL-22 expression and signaling activity in the lung were determined. Ovalbumin (OVA)-induced pulmonary inflammation, immune responses, and airway hyperresponsiveness (AHR) were examined and compared between IL-22 transgenic mice and wild type controls. Following doxycycline (Dox) induction, IL-22 protein was readily detected in the large (CC10 promoter) and small (SPC promoter) airway epithelial cells. IL-22 signaling was evidenced by phosphorylated STAT3. After OVA sensitization and challenge, compared to wild type littermates, IL-22 transgenic mice showed decreased eosinophils in the bronchoalveolar lavage (BAL), and in lung tissue, decreased mucus metaplasia in the airways, and reduced AHR. Among the cytokines and chemokines examined, IL-13 levels were reduced in the BAL fluid as well as in lymphocytes from local draining lymph nodes of IL-22 transgenic mice. No effect was seen on the levels of serum total or OVA-specific IgE or IgG. These findings indicate that IL-22 has immune modulatory effects on pulmonary inflammatory responses in allergen-induced asthma.

Published
2014

10. IL-17A induces Pendrin expression and chloride-bicarbonate exchange in human bronchial epithelial cells

Author

Adams, KM, Abraham, V, Spielman, D, Kolls, JK, Rubenstein, RC, Conner, GE, Cohen, NA, Kreindler, JL, Adams, KM, Abraham, V, Spielman, D, Kolls, JK, Rubenstein, RC, Conner, GE, Cohen, NA, and Kreindler, JL

Abstract

The epithelium plays an active role in the response to inhaled pathogens in part by responding to signals from the immune system. Epithelial responses may include changes in chemokine expression, increased mucin production and antimicrobial peptide secretion, and changes in ion transport. We previously demonstrated that interleukin-17A (IL-17A), which is critical for lung host defense against extracellular bacteria, significantly raised airway surface pH in vitro, a finding that is common to a number of inflammatory diseases. Using microarray analysis of normal human bronchial epithelial (HBE) cells treated with IL-17A, we identified the electroneutral chloride-bicarbonate exchanger Pendrin (SLC26A4) as a potential mediator of this effect. These data were verified by real-time, quantitative PCR that demonstrated a time-dependent increase in Pendrin mRNA expression in HBE cells treated with IL-17A up to 48 h. Using immunoblotting and immunofluorescence, we confirmed that Pendrin protein expression is increased in IL-17 treated HBE cells and that it is primarily localized to the mucosal surface of the cells. Functional studies using live-cell fluorescence to measure intracellular pH demonstrated that IL-17A induced chloride-bicarbonate exchange in HBE cells that was not present in the absence of IL-17A. Furthermore, HBE cells treated with short interfering RNA against Pendrin showed substantially reduced chloride-bicarbonate exchange. These data suggest that Pendrin is part of IL-17A-dependent epithelial changes and that Pendrin may therefore be a therapeutic target in IL-17A-dependent lung disease. © 2014 Adams et al.

Published
2014

11. Src-mediated morphology transition of lung cancer cells in three-dimensional organotypic culture

Author

Nguyen, HT, Zhuang, Y, Sun, L, Kantrow, SP, Kolls, JK, You, Z, Zhuo, Y, Shan, B, Nguyen, HT, Zhuang, Y, Sun, L, Kantrow, SP, Kolls, JK, You, Z, Zhuo, Y, and Shan, B

Abstract

A fribotic tumor microenvironment promotes progression of cancer. In this study, we utilize a reconstituted basement membrane mimics Matrigel based three-dimensional organotypic culture (rBM 3-D) to investigate the mechanisms that mediate the tumor promoting effects of the fibrogenic mediators TGF-β1 and type I collagen (Col-1) on lung adenocarcinoma cells. Similar to normal alveolar epithelial cells, the well-differentiated lung adenocarcinoma cells in rBM 3-D culture undergo acinar morphogeneis that features polarized epithelial cell spheres with a single central lumen. Either TGF-β1 or Col-1 modestly distorts acinar morphogenesis. On the other hand, TGF-β1 and Col-1 synergistically induce a transition from acinar morphology into stellate morphology that is characteristic of invasive and metastatic cancer cells. Inhibition of the Src kinase activity abrogates induction of stellate morphology, activation of Akt and mTOR, and the expression of tumor promoting genes by TGF-β1 and Col-1. To a similar extent, pharmacological inhibition of mTOR abrogates the cellular responses to TGF-β1 and Col-1. In summary, we demonstrate that TGF-β1 and Col-1 promote stellate morphogenesis of lung cancer cells. Our findings further suggest that the Src-Akt-mTOR axis mediates stellate morphogenesis. These findings also indicate that rBM 3-D culture can serve as an ideal platform for swift and cost-effective screening of therapeutic candidates at the interface of the tumor and its microenvironment. © 2013 Nguyen et al.; licensee BioMed Central Ltd.

Published
2013

12. A novel outbred mouse model of 2009 pandemic influenza and bacterial co-infection severity

Author

McHugh, KJ, Mandalapu, S, Kolls, JK, Ross, TM, Alcorn, JF, McHugh, KJ, Mandalapu, S, Kolls, JK, Ross, TM, and Alcorn, JF

Abstract

Influenza viruses pose a significant health risk and annually impose a great cost to patients and the health care system. The molecular determinants of influenza severity, often exacerbated by secondary bacterial infection, are largely unclear. We generated a novel outbred mouse model of influenza virus, Staphylococcus aureus, and coinfection utilizing influenza A/CA/07/2009 virus and S. aureus (USA300). Outbred mice displayed a wide range of pathologic phenotypes following influenza virus or co-infection ranging broadly in severity. Influenza viral burden positively correlated with weight loss although lung histopathology did not. Inflammatory cytokines including IL-6, TNF-α, G-CSF, and CXCL10 positively correlated with both weight loss and viral burden. In S. aureus infection, IL-1β, G-CSF, TNF-α, and IL-6 positively correlated with weight loss and bacterial burden. In co-infection, IL-1β production correlated with decreased weight loss suggesting a protective role. The data demonstrate an approach to identify biomarkers of severe disease and to understand pathogenic mechanisms in pneumonia. © 2013 McHugh et al.

Published
2013

13. Depletion of neutrophils in a protective model of pulmonary cryptococcosis results in increased IL-17A production by gamma/delta T cells

Author

Wozniak, KL, Kolls, JK, Wormley, FL, Wozniak, KL, Kolls, JK, and Wormley, FL

Abstract

Protective responses in mice immunized with an interferon-gamma producing strain of Cryptococcus neoformans, H99γ, are associated with IL-17A production by neutrophils. Neutrophil depletion in H99γ-immunized mice did not affect pulmonary fungal burden, indicating that neutrophils are not required for clearance. However, we observed an increase in IL-17A in the lungs of neutrophil-depleted H99γ infected mice, which corresponded to an increase in IL-17A+ γδ+ T cells. Moreover, we observed increased IL-17A+/ CD3+ cells and IL-17A+/γδ+ cells, but decreased IL-17A+/Ly6G+ neutrophils in the lungs of IL-17 receptor (R)A deficient mice compared to wild-type mice. Increased production of IL-17A in neutropenic mice coincided with increased IL-6 and CXCL1, but not Th17 inducing cytokines TGF-β, IL-21 and IL-23. Concurrent depletion of neutrophils and γδ+ T cells reduced IL-17A levels. Our results suggest that γδ+ T cells mediate significant IL-17A production in neutropenic mice during the protective response to C. neoformans infection. © 2012 Wozniak et al.; licensee BioMed Central Ltd.

Published
2012

14. Stimulation of immature lung macrophages with intranasal interferon gamma in a novel neonatal mouse model of respiratory syncytial virus infection

Author

Empey, KM, Orend, JG, Peebles, RS, Egaña, L, Norris, KA, Oury, TD, Kolls, JK, Empey, KM, Orend, JG, Peebles, RS, Egaña, L, Norris, KA, Oury, TD, and Kolls, JK

Abstract

Respiratory syncytial virus (RSV) is the leading cause of bronchiolitis and viral death in infants. Reduced CD8 T-cells and negligible interferon gamma (IFNγ) in the airway are associated with severe infant RSV disease, yet there is an abundance of alveolar macrophages (AM) and neutrophils. However, it is unclear, based on our current understanding of macrophage functional heterogeneity, if immature AM improve viral clearance or contribute to inflammation and airway obstruction in the IFNγ-deficient neonatal lung environment. The aim of the current study was to define the age-dependent AM phenotype during neonatal RSV infection and investigate their differentiation to classically activated macrophages (CAM) using i.n. IFNγ in the context of improving viral clearance. Neonatal and adult BALB/cJ mice were infected with 1×106 plaque forming units (PFU)/gram (g) RSV line 19 and their AM responses compared. Adult mice showed a rapid and robust CAM response, indicated by increases in major histocompatibility complex class II (MHC II), CD86, CCR7, and a reduction in mannose receptor (MR). Neonatal mice showed a delayed and reduced CAM response, likely due to undetectable IFNγ production. Intranasal (i.n.) treatment with recombinant mouse IFNγ (rIFNγ) increased the expression of CAM markers on neonatal AM, reduced viral lung titers, and improved weight gain compared to untreated controls with no detectable increase in CD4 or CD8 T-cell infiltration. In vitro infection of J774A.1 macrophages with RSV induced an alternatively activated macrophage (AAM) phenotype however, when macrophages were first primed with IFNγ, a CAM phenotype was induced and RSV spread to adjacent Hep-2 cells was reduced. These studies demonstrate that the neonatal AM response to RSV infection is abundant and immature, but can be exogenously stimulated to express the antimicrobial phenotype, CAM, with i.n. rIFNγ. © 2012 Empey et al.

Published
2012

15. IL-17RA is required for CCL2 expression, macrophage recruitment, and emphysema in response to cigarette smoke

Author

Chen, K, Pociask, DA, McAleer, JP, Chan, YR, Alcorn, JF, Kreindler, JL, Keyser, MR, Shapiro, SD, Houghton, AMG, Kolls, JK, Zheng, M, Chen, K, Pociask, DA, McAleer, JP, Chan, YR, Alcorn, JF, Kreindler, JL, Keyser, MR, Shapiro, SD, Houghton, AMG, Kolls, JK, and Zheng, M

Abstract

Chronic Obstructive Pulmonary Disease (COPD) is characterized by airspace enlargement and peribronchial lymphoid follicles; however, the immunological mechanisms leading to these pathologic changes remain undefined. Here we show that cigarette smoke is a selective adjuvant that augments in vitro and in vivo Th17, but not Th1, cell differentiation via the aryl hydrocarbon receptor. Smoke exposed IL-17RA-/- mice failed to induce CCL2 and MMP12 compared to WT mice. Remarkably, in contrast to WT mice, IL-17RA-/- mice failed to develop emphysema after 6 months of cigarette smoke exposure. Taken together, these data demonstrate that cigarette smoke is a potent Th17 adjuvant and that IL-17RA signaling is required for chemokine expression necessary for MMP12 induction and tissue emphysema. © 2011 Chen et al.

Published
2011

16. Interleukin-17A mediates acquired immunity to pneumococcal colonization

Author

Lu, YJ, Gross, J, Bogaert, D, Finn, A, Bagrade, L, Zhang, Q, Kolls, JK, Srivastava, A, Lundgren, A, Forte, S, Thompson, CM, Harney, KF, Anderson, PW, Lipsitch, M, Malley, R, Lu, YJ, Gross, J, Bogaert, D, Finn, A, Bagrade, L, Zhang, Q, Kolls, JK, Srivastava, A, Lundgren, A, Forte, S, Thompson, CM, Harney, KF, Anderson, PW, Lipsitch, M, and Malley, R

Abstract

Although anticapsular antibodies confer serotype-specific immunity to pneumococci, children increase their ability to clear colonization before these antibodies appear, suggesting involvement of other mechanisms. We previously reported that intranasal immunization of mice with pneumococci confers CD4+ T cell-dependent, antibody- and serotype-independent protection against colonization. Here we show that this immunity, rather than preventing initiation of carriage, accelerates clearance over several days, accompanied by neutrophilic infiltration of the nasopharyngeal mucosa. Adoptive transfer of immune CD4+ T cells was sufficient to confer immunity to naïve RAG1 -/- mice. A critical role of interleukin (IL)-17A was demonstrated: mice lacking interferon-γ or IL-4 were protected, but not mice lacking IL-17A receptor or mice with neutrophil depletion. In vitro expression of IL-17A in response to pneumococci was assayed: lymphoid tissue from vaccinated mice expressed significantly more IL-17A than controls, and IL-17A expression from peripheral blood samples from immunized mice predicted protection in vivo. IL-17A was elicited by pneumococcal stimulation of tonsillar cells of children or adult blood but not cord blood. IL-17A increased pneumococcal killing by human neutrophils both in the absence and in the presence of antibodies and complement. We conclude that IL-17A mediates pneumococcal immunity in mice and probably in humans; its elicitation in vitro could help in the development of candidate pneumococcal vaccines. © 2008 Lu et al.

Published
2008

17. The beta-glucan receptor dectin-1 recognizes specific morphologies of aspergillus fumigatus

Author

Steele, C, Rapaka, RR, Metz, A, Pop, SM, Williams, DL, Gordon, S, Kolls, JK, Brown, GD, Steele, C, Rapaka, RR, Metz, A, Pop, SM, Williams, DL, Gordon, S, Kolls, JK, and Brown, GD

Abstract

Alveolar macrophages represent a first-line innate host defense mechanism for clearing inhaled Aspergillus fumigatus from the lungs, yet contradictory data exist as to which alveolar macrophage recognition receptor is critical for innate immunity to A. fumigatus. Acknowledging that the A. fumigatus cell wall contains a high beta-1,3-glucan content, we questioned whether the beta-glucan receptor dectin-1 played a role in this recognition process. Monoclonal antibody, soluble receptor, and competitive carbohydrate blockage indicated that the alveolar macrophage inflammatory response, specifically the production of tumor necrosis factor-α (TNF-α), interleukin-1α (IL-1α), IL-1β, IL-6, CXCL2/macrophage inflammatory protein-2 (MIP-2), CCL3/macrophage inflammatory protein-1α (MIP-1α), granulocyte-colony stimulating factor (G-CSF), and granulocyte monocyte-CSF (GM-CSF), to live A. fumigatus was dependent on recognition via the beta-glucan receptor dectin-1. The inflammatory response was triggered at the highest level by A. fumigatus swollen conidia and early germlings and correlated to the levels of surface-exposed beta glucans, indicating that dectin-1 preferentially recognizes specific morphological forms of A. fumigatus. Intratracheal administration of A. fumigatus conidia to mice in the presence of a soluble dectin-Fc fusion protein reduced both lung proinflammatory cytokine/chemokine levels and cellular recruitment while modestly increasing the A. fumigatus fungal burden, illustrating the importance of beta-glucan-initiated dectin-1 signaling in defense against this pathogen. Collectively, these data show that dectin-1 is centrally required for the generation of alveolar macrophage proinflammatory responses to A. fumigatus and to our knowledge provides the first in vivo evidence for the role of dectin-1 in fungal innate defense. © 2005 Steele et al.

Published
2005

29. Targeting IL-17 and TH17 cells in chronic inflammation.

Author

Miossec P, Kolls JK, Miossec, Pierre, and Kolls, Jay K

Abstract

The key role of interleukin-17 (IL-17) and T helper 17 (T(H)17) cells in tissue inflammation, autoimmunity and host defence led to the experimental targeting of these molecules in mouse models of diseases as well as in clinical settings. Moreover, the demonstration that IL-17 and T(H)17 cells contribute to local and systemic aspects of disease pathogenesis, as well as the finding that the IL-17-T(H)17 cell pathway is regulated by IL-23, prompted the identification of inhibitors. These inhibitors include biotechnology products that target IL-23 as well as the leading member of the IL-17 family, IL-17A, and one of its receptors, IL-17 receptor A. Several clinical trials of these inhibitors are underway, and positive results have been obtained in psoriasis, rheumatoid arthritis and ankylosing spondylitis. This Review focuses on the current knowledge of the IL-17-T(H)17 cell pathway to better understand the positive as well as potential negative consequences of targeting them. [ABSTRACT FROM AUTHOR]

Published
2012
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30. Future directions in early cystic fibrosis lung disease research: an NHLBI workshop report.

Author

Ramsey BW, Banks-Schlegel S, Accurso FJ, Boucher RC, Cutting GR, Engelhardt JF, Guggino WB, Karp CL, Knowles MR, Kolls JK, Lipuma JJ, Lynch S, McCray PB Jr, Rubenstein RC, Singh PK, Sorscher E, Welsh M, Ramsey, Bonnie W, Banks-Schlegel, Susan, and Accurso, Frank J

Abstract

Since the 1989 discovery that mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene cause cystic fibrosis (CF), there has been substantial progress toward understanding the molecular basis for CF lung disease, leading to the discovery and development of new therapeutic approaches. However, the earliest impact of the loss of CFTR function on airway physiology and structure and its relationship to initial infection and inflammation are poorly understood. Universal newborn screening for CF in the United States represents an unprecedented opportunity for investigating CF clinical manifestations very early in life. Recently developed animal models with pulmonary phenotypic manifestations also provide a window into the early consequences of this genetic disorder. For these reasons, the National Heart, Lung, and Blood Institute (NHLBI) convened a working group of extramural experts, entitled "Future Research Directions in Early CF Lung Disease" on September 21-22, 2010, to identify future research directions of great promise in CF. The priority areas identified included (1) exploring pathogenic mechanisms of early CF lung disease; (2) leveraging newborn screening to elucidate the natural history of early lung disease; (3) developing a spectrum of biomarkers of early lung disease that reflects CF pathophysiology, clinical outcome, and response to treatment; (4) exploring the role of genetics/genomics (e.g., modifier genes, gene-environmental interactions, and epigenetics) in early CF pathogenesis; (5) defining early microbiological events in CF lung disease; and (6) elucidating the initial airway inflammatory, remodeling, and repair mechanisms in CF lung disease. [ABSTRACT FROM AUTHOR]

Published
2012
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31. Interleukin-17 receptor deficiency results in impaired synovial expression of interleukin-1 and matrix metalloproteinases 3, 9, and 13 and prevents cartilage destruction during chronic reactivated streptococcal cell wall-induced arthritis.

Author

Koenders MI, Kolls JK, Oppers-Walgreen B, van den Bersselaar L, Joosten LAB, Schurr JR, Schwarzenberger P, van den Berg WB, and Lubberts E

Abstract

OBJECTIVE: To examine the role of interleukin-17 receptor (IL-17R) signaling in cartilage destruction and its interrelationship with synovial IL-1 expression during chronic reactivated streptococcal cell wall (SCW)-induced arthritis. METHODS: SCW arthritis was repeatedly induced in wild-type (WT) and IL-17R-deficient (IL-17R-/-) mice. At different time points, joint inflammation was assessed by using calipers to measure joint swelling. On day 42, mice were killed, and knee joints were removed for histologic analysis. Quantitative polymerase chain reaction (PCR) analyses for different proinflammatory mediators and matrix metalloproteinases (MMPs) were performed on inflamed synovium from WT and IL-17R-/- mice after 5 repeated injections of SCW fragments. RESULTS: IL-17R signaling did not play a significant role in acute joint swelling induced by a single injection of SCW fragments directly into the joint. However, repeated local injections of SCW fragments into the knee joints of IL-17R-/- mice resulted in fewer infiltrating cells in the joint compared with WT mice. Moreover, histologic analysis on day 42 revealed a significant suppression of the degree of chondrocyte death and an absence of cartilage surface erosion in IL-17R-/- mice. Quantitative PCR analysis revealed impaired synovial expression of IL-1, IL-6, cyclooxygenase 2, stromelysin (MMP-3), gelatinase B (MMP-9), and collagenase 3 (MMP-13) in IL-17R-/- mice. CONCLUSION: These data show a critical role of IL-17R signaling in driving the synovial expression of proinflammatory and catabolic mediators, such as IL-1 and different MMPs, during progression from an acute, macrophage-driven joint inflammation to a chronic, cartilage-destructive, T cell-mediated synovitis. Prevention of IL-17R signaling warrants consideration as a therapeutic target in chronic destructive arthritis. [ABSTRACT FROM AUTHOR]

Published
2005
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32. RSA 2004: combined basic research satellite symposium -- mechanisms of alcohol-mediated organ and tissue damage: inflammation and immunity and alcohol and mitochondrial metabolism: at the crossroads of life and death session one: alcohol, cellular and organ damage.

Author

Hoek J, Thiele GM, Klassen LW, Mandrekar P, Zakhari S, Cook RT, Ray NB, Happel KI, Kolls JK, Kovacs EJ, and Szabo G

Abstract

This article summarizes content proceedings of a satellite meeting held at the 2004 Research Society on Alcoholism Annual Scientific Meeting in Vancouver, Canada. The aim of the satellite conference was to facilitate the interaction of scientists investigating the mechanisms of alcohol-mediated organ or tissue damage, and enable the discussion and sharing of new ideas and concepts that may be common in each of the organs or tissues affected by chronic ethanol consumption. The original planned program on immunity was expanded to incorporate a session on a closely related topic 'Alcohol and Mitochondrial Metabolism: At the Crossroads of Life and Death' organized by Dr. Jan Hoek and Dr. Sam Zakhari. The conference was arranged into four sessions: 1) Alcohol, Cellular and Organ Damage 2) Toll-like receptors and Organ Damage 3) Alcohol and Mitochondrial Metabolism: At the Crossroads of Life and Death and 4) Hepatitis virus and alcohol interactions in Immunity and Liver Disease. The keynote address was given by Dr. Bruce Beutler from the Scripps Institute on 'TLRs in Inflammation and Immunity.'The Combined Basic Research Satellite Symposium entitled, 'Mechanisms of Alcohol-Mediated Organ and Tissue Damage: Inflammation and Immunity and Alcohol and Mitochondrial Metabolism: At the Crossroads of Life and Death' was convened at the 2004 Research Society on Alcoholism meeting in Vancouver, BC. Session One featured five speakers who discussed various aspects of the role of the immune system in initiating or exacerbating cellular and organ damage following alcohol consumption. The presentations were (1) Innate Immune responses of Alcohol-exposed mice and macrophage-like cells following infections with Listeria monocytogenes by Robert T. Cook 2) Alcohol, cytokines and host defense by Kyle Happel 3) Decreased antigen presentation and anergy induced by alcohol in myeloid dendritic cells by Pranoti Mandrekar 4) Transcriptional regulation of TNF-alpha in human monocytes by chronic ethanol: role of the cellular redox state by Jay Kolls 5) Estrogen and gender differences in inflammatory responses after alcohol and burn injury by Elizabeth Kovacs. This session highlighted the growing information on the role of pattern recognition molecules in alcohol-mediated tissue damage or dysfunction. The new techniques and ideas presented will be helpful in future studies in this area of research, and should result in some exciting avenues of study. [ABSTRACT FROM AUTHOR]

Published
2005

33. Nitric oxide and host defense against Pneumocystis carinii infection in a mouse model.

Author

Shellito JE, Kolls JK, Olariu R, Beck JM, Shellito, J E, Kolls, J K, Olariu, R, and Beck, J M

Abstract

To investigate whether successful host defense against Pneumocystis carinii is dependent on induction of inducible nitric oxide synthase (iNOS) in alveolar macrophages, immunocompetent mice, mice depleted of CD4 lymphocytes with anti-CD4 antibody, and mice with severe combined immunodeficiency (scid) were inoculated intratracheally with P. carinii. Three weeks later, immunocompetent mice had cleared the organisms completely, while CD4 cell-depleted and scid mice were severely infected (scores, 3.6 +/- 0.2 and 2.8 +/- 0.2, respectively). Inflammation scores were significantly higher in CD4 cell-depleted mice (3.4 +/- 0.2) than in scid mice (0.6 +/- 0.2). Minimal iNOS mRNA was detectable in lung tissue from immunocompetent mice; iNOS mRNA was comparable in scid mice and mice inoculated with PBS but was 6-fold higher in CD4 cell-depleted mice. Immunohistochemistry localized iNOS protein to alveolar macrophages in CD4 cell-depleted mice. Thus, iNOS is an unlikely participant in host defense against P. carinii, because enzyme expression does not correlate with either clearance or severity of infection. [ABSTRACT FROM AUTHOR]

Published
1996

34. Adenovirus-mediated blockade of tumor necrosis factor in mice protects against endotoxic shock yet impairs pulmonary host defense.

Author

Kolls JK, Lei D, Nelson S, Summer WR, Greenberg S, Beutler B, Kolls, J K, Lei, D, Nelson, S, Summer, W R, Greenberg, S, and Beutler, B

Abstract

A replication-deficient recombinant adenovirus encoding a chimeric protein capable of binding tumor necrosis factor (TNF) and lymphotoxin was given to mice. Administration of this virus (10(9) pfu intravenously) yielded high levels of the recombinant protein in plasma and afforded significant protection to a lethal challenge with lipopolysaccharide with or without D-galactosamine. However, this protein inhibitor was readily detectable in the lung and was associated with decreased neutrophil recruitment and bacterial killing after intratracheal LPS or Pseudomonas aeruginosa, respectively. These data reflect the dual role of many proinflammatory cytokines. This model of TNF inhibition is similar to the homozygous 55-kDa TNF receptor deletion; thus, adenovirus-mediated gene transfer of cytokine inhibitors in vivo is a useful tool to abrogate the function of single or multiple cytokines for investigational or therapeutic purposes. [ABSTRACT FROM AUTHOR]

Published
1995

38. Focus on: alcohol and the immune system.

Author

Molina PE, Happel KI, Zhang P, Kolls JK, and Nelson S

Abstract

Alcohol abuse suppresses multiple arms of the immune response, leading to an increased risk of infections. The course and resolution of both bacterial and viral infections is severely impaired in alcohol-abusing patients, resulting in greater patient morbidity and mortality. Multiple mechanisms have been identified underlying the immunosuppressive effects of alcohol. These mechanisms involve structural host defense mechanisms in the gastrointestinal and respiratory tract as well as all of the principal components of the innate and adaptive immune systems, which are compromised both through alcohol's direct effects and through alcohol-related dysregulation of other components. Analyses of alcohol's diverse effects on various components of the immune system provide insight into the factors that lead to a greater risk of infection in the alcohol-abusing population. Some of these mechanisms are directly related to the pathology found in people with infections such as HIV/AIDS, tuberculosis, hepatitis, and pneumonia who continue to use and abuse alcohol. [ABSTRACT FROM AUTHOR]

Published
2010

39. Impact of Psychological Stressors on Natural Killer Cell Function: A Comprehensive Analysis based on Stressor Type, Duration, Intensity, and Species.

Author

Katz AR, Huntwork MP, Kolls JK, Hewes JL, Ellsworth CR, Clark RDE, and Carlson JC

Abstract

Patients with natural killer (NK) cell deficiency or dysfunction are more susceptible to infections by Herpesviridae viruses, herpesvirus-related cancers, and macrophage activation syndromes. This review summarizes research on NK cell dysfunction following psychological stress, focusing on stressor type, duration, age of exposure, and species studied. Psychological stressors negatively affect NK cell activity (NKCA) across species. Prolonged stress leads to more significant decreases in NK cell number and function, with rehabilitation efforts proving ineffective in reversing these effects. Early life and prolonged stress exposure particularly increases the risk of infections and cancer due to impaired NKCA. The review also highlights that stress impacts males and females differently, with females exhibiting a more immunosuppressed NK cell phenotype. Notably, mice respond differently compared to humans and other animals, making them unsuitable for NK cell stress-related studies. Most studies measured NKCA using cytolytic assays against K-562 or YAC-1 cells. Although the exact mechanisms of NK cell dysfunction under stress remain unclear, potential causes include reduced release of secretory lysosomes with perforin or granzyme, impaired NK cell synapse formation, decreased expression of synapse-related molecules like CD2 or LFA-1 (CD11a), altered activating receptor expression, and dysregulated signaling pathways, such as decreased Erk1/2 phosphorylation and NFkB signaling. These mechanisms are not mutually exclusive, and future research is needed to clarify these pathways and develop therapeutic interventions for stress-induced immune dysregulation., (Copyright © 2024. Published by Elsevier Inc.)

Published
2024
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41. Upregulation of inflammatory genes and pathways links obesity to severe COVID-19.

Author

Currey J, Ellsworth C, Khatun MS, Wang C, Chen Z, Liu S, Midkiff C, Xiao M, Ren M, Liu F, Elgazzaz M, Fox S, Maness NJ, Rappaport J, Lazartigues E, Blair R, Kolls JK, Mauvais-Jarvis F, and Qin X

Subjects
Animals, Mice, Humans, Diet, High-Fat adverse effects, Inflammation genetics, Inflammation pathology, Inflammation metabolism, Disease Models, Animal, Interleukin-6 genetics, Interleukin-6 metabolism, Male, Adipose Tissue metabolism, Adipose Tissue pathology, Severity of Illness Index, Angiotensin-Converting Enzyme 2 genetics, Angiotensin-Converting Enzyme 2 metabolism, COVID-19 genetics, COVID-19 virology, COVID-19 metabolism, COVID-19 pathology, Obesity genetics, Obesity metabolism, Obesity complications, SARS-CoV-2, Up-Regulation, Lung metabolism, Lung pathology, Lung virology
Abstract

Obesity is a risk factor for developing severe COVID-19. However, the mechanism underlying obesity-accelerated COVID-19 remains unclear. Here, we report results from a study in which 2-3-month-old K18-hACE2 (K18) mice were fed a western high-fat diet (WD) or normal chow (NC) over 3 months before intranasal infection with a sublethal dose of SARS-CoV2 WA1 (a strain ancestral to the Wuhan variant). After infection, the WD-fed K18 mice lost significantly more body weight and had more severe lung inflammation than normal chow (NC)-fed mice. Bulk RNA-seq analysis of lungs and adipose tissue revealed a diverse landscape of various immune cells, inflammatory markers, and pathways upregulated in the infected WD-fed K18 mice when compared with the infected NC-fed control mice. The transcript levels of IL-6, an important marker of COVID-19 disease severity, were upregulated in the lung at 6-9 days post-infection in the WD-fed mice when compared to NC-fed mice. Transcriptome analysis of the lung and adipose tissue obtained from deceased COVID-19 patients found that the obese patients had an increase in the expression of genes and the activation of pathways associated with inflammation as compared to normal-weight patients (n = 2). The K18 mouse model and human COVID-19 patient data support a link between inflammation and an obesity-accelerated COVID-19 disease phenotype. These results also indicate that obesity-accelerated severe COVID-19 caused by SARS-CoV-2 WA1 infection in the K18 mouse model would be a suitable model for dissecting the cellular and molecular mechanisms underlying pathogenesis., Competing Interests: Declaration of competing interest The authors declare no conflicts of interest., (Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2024
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42. Deficiency of Tlr7 and Irf7 in mice increases the severity of COVID-19 through the reduced interferon production.

Author

Wang C, Khatun MS, Ellsworth CR, Chen Z, Islamuddin M, Nisperuza Vidal AK, Afaque Alam M, Liu S, Mccombs JE, Maness NJ, Blair RV, Kolls JK, and Qin X

Subjects
Animals, Mice, Interferons metabolism, Mice, Inbred C57BL, Severity of Illness Index, Viral Load, Membrane Glycoproteins genetics, Membrane Glycoproteins metabolism, Disease Models, Animal, Toll-Like Receptor 7 genetics, Toll-Like Receptor 7 metabolism, Interferon Regulatory Factor-7 genetics, Interferon Regulatory Factor-7 metabolism, COVID-19 immunology, COVID-19 virology, COVID-19 metabolism, SARS-CoV-2 immunology, SARS-CoV-2 physiology, Lung immunology, Lung virology, Lung metabolism, Mice, Knockout
Abstract

Toll-like receptor 7 (Tlr7) deficiency-accelerated severe COVID-19 is associated with reduced production of interferons (IFNs). However, the underlying mechanisms remain elusive. To address these questions, we utilize Tlr7 and Irf7 deficiency mice, single-cell RNA analysis together with bone marrow transplantation approaches. We demonstrate that at the early phase of infection, SARS-CoV-2 causes the upregulation of Tlr7, Irf7, and IFN pathways in the lungs of the infected mice. The deficiency of Tlr7 and Irf7 globally and/or in immune cells in mice increases the severity of COVID-19 via impaired IFN activation in both immune and/or non-immune cells, leading to increased lung viral loads. These effects are associated with reduced IFN alpha and gamma levels in the circulation. The deficiency of Tlr7 tends to cause the reduced production and nuclear translocation of interferon regulatory factor 7 (IRF7) in the lungs of the infected mice, indicative of reduced IRF7 activation. Despite higher amounts of lung viral antigen, Tlr7 or Irf7 deficiency resulted in substantially reduced production of antibodies against SARS-CoV-2, thereby delaying the viral clearance. These results highlight the importance of the activation of TLR7 and IRF7 leading to IFN production on the development of innate and adaptive immunity against COVID-19., (© 2024. The Author(s).)

Published
2024
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43. Enhanced complement activation and MAC formation accelerates severe COVID-19.

Author

Ellsworth CR, Chen Z, Xiao MT, Qian C, Wang C, Khatun MS, Liu S, Islamuddin M, Maness NJ, Halperin JA, Blair RV, Kolls JK, Tomlinson S, and Qin X

Subjects
Animals, Mice, Complement C3 immunology, Complement C3 metabolism, Complement C3 genetics, Mice, Inbred C57BL, Humans, Complement C5 immunology, Complement C5 metabolism, Complement C5 antagonists & inhibitors, Disease Models, Animal, COVID-19 immunology, COVID-19 pathology, COVID-19 virology, Complement Activation immunology, Complement Membrane Attack Complex metabolism, Complement Membrane Attack Complex immunology, Mice, Knockout, SARS-CoV-2 immunology, CD59 Antigens metabolism, CD59 Antigens genetics, CD59 Antigens immunology
Abstract

Emerging evidence indicates that activation of complement system leading to the formation of the membrane attack complex (MAC) plays a detrimental role in COVID-19. However, their pathogenic roles have never been experimentally investigated before. We used three knock out mice strains (1. C3 -/- ; 2. C7 -/- ; and 3. Cd59ab -/- ) to evaluate the role of complement in severe COVID-19 pathogenesis. C3 deficient mice lack a key common component of all three complement activation pathways and are unable to generate C3 and C5 convertases. C7 deficient mice lack a complement protein needed for MAC formation. Cd59ab deficient mice lack an important inhibitor of MAC formation. We also used anti-C5 antibody to block and evaluate the therapeutic potential of inhibiting MAC formation. We demonstrate that inhibition of complement activation (in C3 -/- ) and MAC formation (in C3 -/- . C7 -/- , and anti-C5 antibody) attenuates severe COVID-19; whereas enhancement of MAC formation (Cd59ab -/- ) accelerates severe COVID-19. The degree of MAC but not C3 deposits in the lungs of C3 -/- , C7 -/- mice, and Cd59ab -/- mice as compared to their control mice is associated with the attenuation or acceleration of SARS-CoV-2-induced disease. Further, the lack of terminal complement activation for the formation of MAC in C7 deficient mice protects endothelial dysfunction, which is associated with the attenuation of diseases and pathologic changes. Our results demonstrated the causative effect of MAC in severe COVID-19 and indicate a potential avenue for modulating the complement system and MAC formation in the treatment of severe COVID-19., (© 2024. The Author(s).)

Published
2024
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44. Pancreatic Epithelial IL17/IL17RA Signaling Drives B7-H4 Expression to Promote Tumorigenesis.

Author

Castro-Pando S, Howell RM, Li L, Mascaro M, Faraoni EY, Le Roux O, Romanin D, Tahan V, Riquelme E, Zhang Y, Kolls JK, Allison JP, Lozano G, Moghaddam SJ, and McAllister F

Subjects
Animals, Mice, Tumor Microenvironment immunology, Carcinogenesis genetics, Mice, Transgenic, Humans, Epithelial Cells metabolism, Mice, Knockout, Gene Expression Regulation, Neoplastic, Mice, Inbred C57BL, Cell Transformation, Neoplastic genetics, Cell Transformation, Neoplastic metabolism, Cell Transformation, Neoplastic immunology, Pancreas pathology, Pancreas immunology, Pancreas metabolism, Interleukin-17 metabolism, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms genetics, Pancreatic Neoplasms pathology, Pancreatic Neoplasms immunology, Receptors, Interleukin-17 metabolism, Receptors, Interleukin-17 genetics, Signal Transduction, V-Set Domain-Containing T-Cell Activation Inhibitor 1 genetics, V-Set Domain-Containing T-Cell Activation Inhibitor 1 metabolism
Abstract

IL17 is required for the initiation and progression of pancreatic cancer, particularly in the context of inflammation, as previously shown by genetic and pharmacological approaches. However, the cellular compartment and downstream molecular mediators of IL17-mediated pancreatic tumorigenesis have not been fully identified. This study examined the cellular compartment required by generating transgenic animals with IL17 receptor A (IL17RA), which was genetically deleted from either the pancreatic epithelial compartment or the hematopoietic compartment via generation of IL17RA-deficient (IL17-RA-/-) bone marrow chimeras, in the context of embryonically activated or inducible Kras. Deletion of IL17RA from the pancreatic epithelial compartment, but not from hematopoietic compartment, resulted in delayed initiation and progression of premalignant lesions and increased infiltration of CD8+ cytotoxic T cells to the tumor microenvironment. Absence of IL17RA in the pancreatic compartment affected transcriptional profiles of epithelial cells, modulating stemness, and immunological pathways. B7-H4, a known inhibitor of T-cell activation encoded by the gene Vtcn1, was the checkpoint molecule most upregulated via IL17 early during pancreatic tumorigenesis, and its genetic deletion delayed the development of pancreatic premalignant lesions and reduced immunosuppression. Thus, our data reveal that pancreatic epithelial IL17RA promotes pancreatic tumorigenesis by reprogramming the immune pancreatic landscape, which is partially orchestrated by regulation of B7-H4. Our findings provide the foundation of the mechanisms triggered by IL17 to mediate pancreatic tumorigenesis and reveal the avenues for early pancreatic cancer immune interception. See related Spotlight by Lee and Pasca di Magliano, p. 1130., (©2024 The Authors; Published by the American Association for Cancer Research.)

Published
2024
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45. Gammaherpesvirus Infection Stimulates Lung Tumor-Promoting Inflammation.

Author

Mukhopadhyay SS, Swan KF, Pridjian G, Kolls JK, Zhuang Y, Yin Q, Lasky JA, Flemington E, Morris CA, Lin Z, and Morris GF

Abstract

Lung tumor-promoting environmental exposures and γherpesvirus infections are associated with Type 17 inflammation. To test the effect of γherpesvirus infection in promoting lung tumorigenesis, we infected mutant K-Ras-expressing (K-Ras LA1 ) mice with the murine γherpesvirus MHV68 via oropharyngeal aspiration. After 7 weeks, the infected mice displayed a more than 2-fold increase in lung tumors relative to their K-Ras LA1 uninfected littermates. Assessment of cytokines in the lung revealed that expression of Type 17 cytokines ( Il-6 , Cxcl1 , Csf3 ) peaked at day 7 post-infection. These observations correlated with the post-infection appearance of known immune mediators of tumor promotion via IL-17A in the lungs of tumor-bearing mice. Surprisingly, Cd84 , an immune cell marker mRNA, did not increase in MHV68-infected wild-type mice lacking lung tumors. Csf3 and Cxcl1 protein levels increased more in the lungs of infected K-Ras LA1 mice relative to infected wild-type littermates. Flow cytometric and transcriptomic analyses indicated that the infected K-Ras LA1 mice had increased Ly6G dim /Ly6C hi immune cells in the lung relative to levels seen in uninfected control K-Ras LA1 mice. Selective methylation of adenosines (m 6 A modification) in immune-cell-enriched mRNAs appeared to correlate with inflammatory infiltrates in the lung. These observations implicate γherpesvirus infection in lung tumor promotion and selective accumulation of immune cells in the lung that appears to be associated with m 6 A modification of mRNAs in those cells.

Published
2024
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47. The Impact of SIV-Induced Immunodeficiency on SARS-CoV-2 Disease, Viral Dynamics, and Antiviral Immune Response in a Nonhuman Primate Model of Coinfection.

Author

Melton A, Rowe LA, Penney T, Krzykwa C, Goff K, Scheuermann SE, Melton HJ, Williams K, Golden N, Green KM, Smith B, Russell-Lodrigue K, Dufour JP, Doyle-Meyers LA, Schiro F, Aye PP, Lifson JD, Beddingfield BJ, Blair RV, Bohm RP, Kolls JK, Rappaport J, Hoxie JA, and Maness NJ

Subjects
Animals, Virus Replication, Macaca nemestrina, Pilot Projects, Antibodies, Viral immunology, Antibodies, Viral blood, Viral Load, CD4-Positive T-Lymphocytes immunology, Antibodies, Neutralizing immunology, Antibodies, Neutralizing blood, Simian Immunodeficiency Virus immunology, COVID-19 immunology, COVID-19 virology, Simian Acquired Immunodeficiency Syndrome immunology, Simian Acquired Immunodeficiency Syndrome virology, SARS-CoV-2 immunology, Disease Models, Animal, Coinfection immunology, Coinfection virology
Abstract

The effects of immunodeficiency associated with chronic HIV infection on COVID-19 disease and viral persistence have not been directly addressed in a controlled setting. In this pilot study, we exposed two pigtail macaques (PTMs) chronically infected with SIVmac239, exhibiting from very low to no CD4 T cells across all compartments, to SARS-CoV-2. We monitored the disease progression, viral replication, and evolution, and compared these outcomes with SIV-naïve PTMs infected with SARS-CoV-2. No overt signs of COVID-19 disease were observed in either animal, and the SARS-CoV-2 viral kinetics and evolution in the SIVmac239 PTMs were indistinguishable from those in the SIV-naïve PTMs in all sampled mucosal sites. However, the single-cell RNA sequencing of bronchoalveolar lavage cells revealed an infiltration of functionally inert monocytes after SARS-CoV-2 infection. Critically, neither of the SIV-infected PTMs mounted detectable anti-SARS-CoV-2 T-cell responses nor anti-SARS-CoV-2 binding or neutralizing antibodies. Thus, HIV-induced immunodeficiency alone may not be sufficient to drive the emergence of novel viral variants but may remove the ability of infected individuals to mount adaptive immune responses against SARS-CoV-2.

Published
2024
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48. Single cell regulatory architecture of human pancreatic islets suggests sex differences in β cell function and the pathogenesis of type 2 diabetes.

Author

Qadir MMF, Elgamal RM, Song K, Kudtarkar P, Sakamuri SSVP, Katakam PV, El-Dahr SS, Kolls JK, Gaulton KJ, and Mauvais-Jarvis F

Abstract

Type 2 and type 1 diabetes (T2D, T1D) exhibit sex differences in insulin secretion, the mechanisms of which are unknown. We examined sex differences in human pancreatic islets from 52 donors with and without T2D combining single cell RNA-seq (scRNA-seq), single nucleus assay for transposase-accessible chromatin sequencing (snATAC-seq), hormone secretion, and bioenergetics. In nondiabetic (ND) donors, sex differences in islet cells gene accessibility and expression predominantly involved sex chromosomes. Islets from T2D donors exhibited similar sex differences in sex chromosomes differentially expressed genes (DEGs), but also exhibited sex differences in autosomal genes. Comparing β cells from T2D vs. ND donors, gene enrichment of female β cells showed suppression in mitochondrial respiration, while male β cells exhibited suppressed insulin secretion. Thus, although sex differences in gene accessibility and expression of ND β cells predominantly affect sex chromosomes, the transition to T2D reveals sex differences in autosomes highlighting mitochondrial failure in females., Competing Interests: Declaration of interests: The authors declare no conflict of interest

Published
2024
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49. Evaluation of anti-vector immune responses to adenovirus-mediated lung gene therapy and modulation by αCD20.

Author

Clark RDE, Rabito F, Munyonho FT, Remcho TP, and Kolls JK

Abstract

Although the last decade has seen tremendous progress in drugs that treat cystic fibrosis (CF) due to mutations that lead to protein misfolding, there are approximately 8%-10% of subjects with mutations that result in no significant CFTR protein expression demonstrating the need for gene editing or gene replacement with inhaled mRNA or vector-based approaches. A limitation for vector-based approaches is the formation of neutralizing humoral responses. Given that αCD20 has been used to manage post-transplant lymphoproliferative disease in CF subjects with lung transplants, we studied the ability of αCD20 to module both T and B cell responses in the lung to one of the most immunogenic vectors, E1-deleted adenovirus serotype 5. We found that αCD20 significantly blocked luminal antibody responses and efficiently permitted re-dosing. αCD20 had more limited impact on the T cell compartment, but reduced tissue resident memory T cell responses in bronchoalveolar lavage fluid. Taken together, these pre-clinical studies suggest that αCD20 could be re-purposed for lung gene therapy protocols to permit re-dosing., Competing Interests: The authors declare no competing interests., (© 2024 The Authors.)

Published
2024
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50. Natural Killer Cells Do Not Attenuate a Mouse-Adapted SARS-CoV-2-Induced Disease in Rag2 -/- Mice.

Author

Ellsworth CR, Wang C, Katz AR, Chen Z, Islamuddin M, Yang H, Scheuermann SE, Goff KA, Maness NJ, Blair RV, Kolls JK, and Qin X

Subjects
Animals, Mice, Mice, Knockout, Humans, Lung pathology, Lung virology, Lung immunology, Angiotensin-Converting Enzyme 2 genetics, Angiotensin-Converting Enzyme 2 metabolism, B-Lymphocytes immunology, Female, T-Lymphocytes immunology, Killer Cells, Natural immunology, COVID-19 immunology, COVID-19 virology, SARS-CoV-2 immunology, SARS-CoV-2 pathogenicity, Disease Models, Animal, Mice, Inbred C57BL, DNA-Binding Proteins genetics, DNA-Binding Proteins deficiency
Abstract

This study investigates the roles of T, B, and Natural Killer (NK) cells in the pathogenesis of severe COVID-19, utilizing mouse-adapted SARS-CoV-2-MA30 (MA30). To evaluate this MA30 mouse model, we characterized MA30-infected C57BL/6 mice (B6) and compared them with SARS-CoV-2-WA1 (an original SARS-CoV-2 strain) infected K18-human ACE2 ( K18-hACE2 ) mice. We found that the infected B6 mice developed severe peribronchial inflammation and rapid severe pulmonary edema, but less lung interstitial inflammation than the infected K18-hACE2 mice. These pathological findings recapitulate some pathological changes seen in severe COVID-19 patients. Using this MA30-infected mouse model, we further demonstrate that T and/or B cells are essential in mounting an effective immune response against SARS-CoV-2. This was evident as Rag2 -/- showed heightened vulnerability to infection and inhibited viral clearance. Conversely, the depletion of NK cells did not significantly alter the disease course in Rag2 -/- mice, underscoring the minimal role of NK cells in the acute phase of MA30-induced disease. Together, our results indicate that T and/or B cells, but not NK cells, mitigate MA30-induced disease in mice and the infected mouse model can be used for dissecting the pathogenesis and immunology of severe COVID-19.

Published
2024
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