Abstract

Regulators of G-protein signaling (RGS) proteins are a family of proteins, which accelerate GTPase-activity intrinsic to the α subunits of heterotrimeric G-proteins and play crucial roles in the physiological control of G-protein signaling. If RGS proteins were active unrestrictedly, they would completely suppress various G-protein-mediated cell signaling as has been shown in the over-expression experiments of various RGS proteins. Thus, physiologically the modes of RGS-action should be under some regulation. The regulation can be achieved through the control of either the protein function and/or the subcellular localization. Examples for the former are as follows: (i) Phosphatidylinositol 3,4,5-trisphosphate (PIP 3) inhibits RGS-action, which can be recovered by Ca 2+/calmodulin. This underlies a voltage-dependent “relaxation” behavior of G-protein-gated K + channels. (ii) A modulatory protein, 14-3-3, binds to the RGS proteins phosphorylated by PKA and inhibits their actions. For the latter mechanism, additional regulatory modules, such as PDZ, PX, and G-protein γ subunit-like (GGL) domains, identified in several RGS proteins may be responsible: (i) PDZ domain of RGS12 interacts with a G-protein-coupled chemokine receptor, CXCR2, and thus facilitates its GAP action on CXCR2-mediated G-protein signals. (ii) RGS9 forms a complex with a type of G-protein β-subunit (Gβ5) via its GGL domain, which facilitates the GAP function of RGS9. Both types of regulations synergistically control the mode of action of RGS proteins in the physiological conditions, which contributes to fine tunings of G-protein signalings.

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