A new mode of Ca2+ signaling by G protein-coupled receptors: gating of IP3 receptor Ca2+ release channels by Gbetagamma.

The most common form of Ca(2+) signaling by Gq-coupled receptors entails activation of PLCbeta2 by Galphaq to generate IP(3) and evoke Ca(2+) release from the ER. Another form of Ca(2+) signaling by G protein-coupled receptors involves activation of Gi to release Gbetagamma, which activates PLCbeta1. Whether Gbetagamma has additional roles in Ca(2+) signaling is unknown. Introduction of Gbetagamma into cells activated Ca(2+) release from the IP(3) Ca(2+) pool and Ca(2) oscillations. This can be due to activation of PLCbeta1 or direct activation of the IP(3)R by Gbetagamma. We report here that Gbetagamma potently activates the IP(3) receptor. Thus, Gbetagamma-triggered [Ca(2+)](i) oscillations are not affected by inhibition of PLCbeta. Coimmunoprecipitation and competition experiments with Gbetagamma scavengers suggest binding of Gbetagamma to IP(3) receptors. Furthermore, Gbetagamma inhibited IP(3) binding to IP(3) receptors. Notably, Gbetagamma activated single IP(3)R channels in native ER as effectively as IP(3). The physiological significance of this form of signaling is demonstrated by the reciprocal sensitivity of Ca(2+) signals evoked by Gi- and Gq-coupled receptors to Gbetagamma scavenging and PLCbeta inhibition. We propose that gating of IP(3)R by Gbetagamma is a new mode of Ca(2+) signaling with particular significance for Gi-coupled receptors.