Abstract
Store-operated Ca2+ entry (SOCE) through Ca2+ release-activated Ca2+ (CRAC) channels is critical for lymphocyte function and immune responses. CRAC channels are hexamers of ORAI proteins that form the channel pore, but the contributions of individual ORAI homologues to CRAC channel function are not well understood. Here we show that deletion of Orai1 reduces, whereas deletion of Orai2 increases, SOCE in mouse T cells. These distinct effects are due to the ability of ORAI2 to form heteromeric channels with ORAI1 and to attenuate CRAC channel function. The combined deletion of Orai1 and Orai2 abolishes SOCE and strongly impairs T cell function. In vivo, Orai1/Orai2 double-deficient mice have impaired T cell-dependent antiviral immune responses, and are protected from T cell-mediated autoimmunity and alloimmunity in models of colitis and graft-versus-host disease. Our study demonstrates that ORAI1 and ORAI2 form heteromeric CRAC channels, in which ORAI2 fine-tunes the magnitude of SOCE to modulate immune responses.
Highlights
Store-operated Ca2 þ entry (SOCE) through Ca2 þ release-activated Ca2 þ (CRAC) channels is critical for lymphocyte function and immune responses
Using Orai1- or Orai2-deficient mice, we find that ORAI1 and ORAI2 mediate SOCE and T cell function
To understand the contributions of the three ORAI homologues to immunity, we analysed the expression of Orai[1], Orai[2] and Orai[3] genes in various immune cell subsets using public databases (Immgen.org; BioGPS.org: gene 109305 (Orai1), 269717 (Orai2) and 269999 (Orai3))
Summary
Store-operated Ca2 þ entry (SOCE) through Ca2 þ release-activated Ca2 þ (CRAC) channels is critical for lymphocyte function and immune responses. We show that deletion of Orai[1] reduces, whereas deletion of Orai[2] increases, SOCE in mouse T cells These distinct effects are due to the ability of ORAI2 to form heteromeric channels with ORAI1 and to attenuate CRAC channel function. Ca2 þ release-activated Ca2 þ (CRAC) channels mediate Ca2 þ influx in many cell types. They are formed by the tetraspanning plasma membrane proteins ORAI1, ORAI2 and ORAI3. CRAC currents (ICRAC) and SOCE have been reported in many cell types, consistent with the ubiquitous expression of all three ORAI homologues[1,12,13,14].
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