A hydrophobie domain of Ca2+-modulating cyclophilin ligand modulates calcium influx signaling in T lymphocytes

Abstract

Ca2+-modulating cyclophilin ligand (CAML) was originally described as a cyclophilin B-binding protein whose overexpression in T cells causes a rise in intracellular calcium, thus activating transcription factors responsible for the early immune response. As reported here, structure-function analysis of the CAML gene in Jurkat T cells indicates that two of CAML's putative membrane-spanning domains are necessary and sufficient for the modulation of intracellular calcium. We propose that the hydrophobic C-terminal tail of CAML forms its effector domain, thus implicating the N-terminal hydrophilic domain in a regulatory role. These findings define a novel protein motif that functions in intracellular calcium signaling.