Store-Operated Ca2+ Entry through ORAI1 Is Critical for T Cell-Mediated Autoimmunity and Allograft Rejection
2010; American Association of Immunologists; Volume: 185; Issue: 10 Linguagem: Inglês
10.4049/jimmunol.1001796
ISSN1550-6606
AutoresChristie-Ann McCarl, Sara Khalil, Jian Ma, Masatsugu Oh‐hora, Megumi Yamashita, Jens Roether, Takumi Kawasaki, Amit Jairaman, Yoshiteru Sasaki, Murali Prakriya, Stefan Feske,
Tópico(s)Ion channel regulation and function
ResumoAbstract ORAI1 is the pore-forming subunit of the Ca2+ release-activated Ca2+ (CRAC) channel, which is responsible for store-operated Ca2+ entry in lymphocytes. A role for ORAI1 in T cell function in vivo has been inferred from in vitro studies of T cells from human immunodeficient patients with mutations in ORAI1 and Orai1−/− mice, but a detailed analysis of T cell-mediated immune responses in vivo in mice lacking functional ORAI1 has been missing. We therefore generated Orai1 knock-in mice (Orai1KI/KI) expressing a nonfunctional ORAI1-R93W protein. Homozygosity for the equivalent ORAI1-R91W mutation abolishes CRAC channel function in human T cells resulting in severe immunodeficiency. Homozygous Orai1KI/KI mice die neonatally, but Orai1KI/KI fetal liver chimeric mice are viable and show normal lymphocyte development. T and B cells from Orai1KI/KI mice display severely impaired store-operated Ca2+ entry and CRAC channel function resulting in a strongly reduced expression of several key cytokines including IL-2, IL-4, IL-17, IFN-γ, and TNF-α in CD4+ and CD8+ T cells. Cell-mediated immune responses in vivo that depend on Th1, Th2, and Th17 cell function were severely attenuated in ORAI1-deficient mice. Orai1KI/KI mice lacked detectable contact hypersensitivity responses and tolerated skin allografts significantly longer than wild-type mice. In addition, T cells from Orai1KI/KI mice failed to induce colitis in an adoptive transfer model of inflammatory bowel disease. These findings reaffirm the critical role of ORAI1 for T cell function and provide important insights into the in vivo functions of CRAC channels for T cell-mediated immunity.
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