Abstract
Independent of its function as a subunit of voltage-gated Ca2+ channels, the Cavβ3 subunit desensitizes fibroblasts and pancreatic β-cells to low concentrations of inositol-1,4,5-trisphosphate (IP3). This alters agonist-induced Ca2+ signaling and cellular functions, for example, insulin secretion and wound healing. A total of four Cavβ subunits exist, Cavβ1, Cavβ2, Cavβ3, and Cavβ4. To investigate whether the other Cavβ subunits, like Cavβ3, can desensitize cells to IP3 and thereby modulate Ca2+ signaling, we expressed the cDNAs of Cavβ1, Cavβ2, Cavβ3, and Cavβ4 in COS-7 cells lacking endogenous Cavβ proteins. ATP stimulation of these cells results in the release of Ca2+ from intracellular stores. This receptor-mediated Ca2+ release is significantly decreased by Cavβ3 but not by Cavβ1, Cavβ2, and Cavβ4. Electrophysiological recordings of voltage-dependent Ca2+ currents from fibroblasts show a small Ca2+ current, the amplitude of which is slightly but not significantly smaller in fibroblasts from Cavβ2 gene-deficient animals than in fibroblasts from wild-type animals. Compared with fibroblasts from wild-type animals, Ca2+ release is not significantly increased in Cavβ2-deficient fibroblasts, in contrast to Ca2+ release in Cavβ3-deficient fibroblasts. In summary, our results show that desensitization of cells to low concentrations of IP3 is a specific property of Cavβ3 that is not shared by other Cavβ subunits.
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