Human CARD9: A Critical Molecule of Fungal Immune Surveillance

被引:112
作者
Drummond, Rebecca A. [1 ,3 ]
Franco, Luis M. [2 ]
Lionakis, Michail S. [1 ]
机构
[1] NIAID, Fungal Pathogenesis Sect, LCIM, NIH, 9000 Rockville Pike, Bethesda, MD 20892 USA
[2] NIAID, LISB, NIH, 9000 Rockville Pike, Bethesda, MD 20892 USA
[3] Univ Birmingham, Inst Immunol & Immunotherapy, Inst Microbiol & Infect, Birmingham, W Midlands, England
来源
FRONTIERS IN IMMUNOLOGY | 2018年 / 9卷
基金
美国国家卫生研究院;
关键词
CARD9; fungi; primary immunodeficiency; C-type lectin receptors; candidiasis; neutrophils; INFLAMMATORY-BOWEL-DISEASE; INNATE ANTIFUNGAL IMMUNITY; CANDIDA-ALBICANS; SUSCEPTIBILITY; INFECTIONS; DEFICIENCY; RESPONSES; COLITIS; ADAPTER; CELLS;
D O I
10.3389/fimmu.2018.01836
中图分类号
R392 [医学免疫学]; Q939.91 [免疫学];
学科分类号
100102 ;
摘要
CARD9 is a signaling adaptor protein that is involved in the transduction of signals from a variety of innate pattern recognition receptors, including the C-type lectin receptors and intracellular NOD receptors and nucleic acid sensors. As a result, CARD9 has been shown in animal models to be an important regulator of immunity to bacteria, fungi, and viruses. Studies in humans with autosomal recessive CARD9 deficiency have indicated a highly specific role for this molecule in the activation of antifungal immune responses in the central nervous system, the oral mucosa, and the skin. Moreover, CARD9-dependent functions have recently been indicated to modulate the development of autoimmunity, inflammatory bowel diseases, and cancer. In this mini-review, we highlight the recent studies that have identified several novel functions of CARD9 in various disease contexts, and we summarize the contemporary understanding of the genetics and immunology of human CARD9 deficiency.
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页数:7
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共 57 条
[1]   Hyperactivated JNK Is a Therapeutic Target in pVHL-Deficient Renal Cell Carcinoma [J].
An, Jiabin ;
Liu, Huiren ;
Magyar, Clara E. ;
Guo, Yanchuan ;
Veena, Mysore S. ;
Srivatsan, Eri S. ;
Huang, Jiaoti ;
Rettig, Matthew B. .
CANCER RESEARCH, 2013, 73 (04) :1374-1385
[2]   Rapid CD4+ T-cell responses to bacterial flagellin require dendritic cell expression of Syk and CARD9 [J].
Atif, Shaikh M. ;
Lee, Seung-Joo ;
Li, Lin-Xi ;
Uematsu, Satoshi ;
Akira, Shizuo ;
Gorjestani, Sara ;
Lin, Xin ;
Schweighoffer, Edina ;
Tybulewicz, Victor L. J. ;
McSorley, Stephen J. .
EUROPEAN JOURNAL OF IMMUNOLOGY, 2015, 45 (02) :513-524
[3]   Deep Resequencing of GWAS Loci Identifies Rare Variants in CARD9, IL23R and RNF186 That Are Associated with Ulcerative Colitis [J].
Beaudoin, Melissa ;
Goyette, Philippe ;
Boucher, Gabrielle ;
Lo, Ken Sin ;
Rivas, Manuel A. ;
Stevens, Christine ;
Alikashani, Azadeh ;
Ladouceur, Martin ;
Ellinghaus, David ;
Torkvist, Leif ;
Goel, Gautam ;
Lagace, Caroline ;
Annese, Vito ;
Bitton, Alain ;
Begun, Jakob ;
Brant, Steve R. ;
Bresso, Francesca ;
Cho, Judy H. ;
Duerr, Richard H. ;
Halfvarson, Jonas ;
McGovern, Dermot P. B. ;
Radford-Smith, Graham ;
Schreiber, Stefan ;
Schumm, Philip L. ;
Sharma, Yashoda ;
Silverberg, Mark S. ;
Weersma, Rinse K. ;
D'Amato, Mauro ;
Vermeire, Severine ;
Franke, Andre ;
Lettre, Guillaume ;
Xavier, Ramnik J. ;
Daly, Mark J. ;
Rioux, John D. .
PLOS GENETICS, 2013, 9 (09)
[4]   Card9-dependent IL-β regulates IL-22 production from group 3 innate lymphoid cells and promotes colitis-associated cancer [J].
Bergmann, Hanna ;
Roth, Susanne ;
Pechloff, Konstanze ;
Kiss, Elina A. ;
Kuhn, Sabine ;
Heikenwaelder, Mathias ;
Diefenbach, Andreas ;
Greten, Florian R. ;
Ruland, Juergen .
EUROPEAN JOURNAL OF IMMUNOLOGY, 2017, 47 (08) :1342-1353
[5]   The Adaptor CARD9 Is Required for Adaptive but Not Innate Immunity to Oral Mucosal Candida albicans Infections [J].
Bishu, Shrinivas ;
Hernandez-Santos, Nydiaris ;
Simpson-Abelson, Michelle R. ;
Huppler, Anna R. ;
Conti, Heather R. ;
Ghilardi, Nico ;
Mamo, Anna J. ;
Gaffen, Sarah L. .
INFECTION AND IMMUNITY, 2014, 82 (03) :1173-1180
[6]   Fungal-derived cues promote ocular autoimmunity through a Dectin-2/Card9-mediated mechanism [J].
Brown, B. R. ;
Lee, E. J. ;
Snow, P. E. ;
Vance, E. E. ;
Iwakura, Y. ;
Ohno, N. ;
Miura, N. ;
Lin, X. ;
Brown, G. D. ;
Wells, C. A. ;
Smith, J. R. ;
Caspi, R. R. ;
Rosenzweig, H. L. .
CLINICAL AND EXPERIMENTAL IMMUNOLOGY, 2017, 190 (03) :293-303
[7]   Ubiquitin Ligase TRIM62 Regulates CARD9-Mediated Anti-fungal Immunity and Intestinal Inflammation [J].
Cao, Zhifang ;
Conway, Kara L. ;
Heath, Robert J. ;
Rush, Jason S. ;
Leshchiner, Elizaveta S. ;
Ramirez-Ortiz, Zaida G. ;
Nedelsky, Natalia B. ;
Huang, Hailiang ;
Ng, Aylwin ;
Gardet, Agnes ;
Cheng, Shih-Chin ;
Shamji, Alykhan F. ;
Rioux, John D. ;
Wijmenga, Cisca ;
Netea, Mihai G. ;
Means, Terry K. ;
Daly, Mark J. ;
Xavier, Ramnik J. .
IMMUNITY, 2015, 43 (04) :715-726
[8]   Successful Granulocyte Colony-stimulating Factor Treatment of Relapsing Candida albicans Meningoencephalitis Caused by CARD9 Deficiency [J].
Celmeli, Fatih ;
Oztoprak, Nefise ;
Turkkahraman, Doga ;
Seyman, Derya ;
Mutlu, Esvet ;
Frede, Natalie ;
Koeksoy, Sadi ;
Grimbacher, Bodo .
PEDIATRIC INFECTIOUS DISEASE JOURNAL, 2016, 35 (04) :428-431
[9]   The adaptor molecule CARD9 is essential for tuberculosis control [J].
Dorhoi, Anca ;
Desel, Christiane ;
Yeremeev, Vladimir ;
Pradl, Lydia ;
Brinkmann, Volker ;
Mollenkopf, Hans-Joachim ;
Hanke, Karin ;
Gross, Olaf ;
Ruland, Juergen ;
Kaufmann, Stefan H. E. .
JOURNAL OF EXPERIMENTAL MEDICINE, 2010, 207 (04) :777-792
[10]   Invasive fungal infection and impaired neutrophil killing in human CARD9 deficiency [J].
Drewniak, Agata ;
Gazendam, Roel P. ;
Tool, Anton T. J. ;
van Houdt, Michel ;
Jansen, Machiel H. ;
van Hamme, John L. ;
van Leeuwen, Ester M. M. ;
Roos, Dirk ;
Scalais, Emmanuel ;
de Beaufort, Carine ;
Janssen, Hans ;
van den Berg, Timo K. ;
Kuijpers, Taco W. .
BLOOD, 2013, 121 (13) :2385-2392
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