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When 7 transmembrane receptors are not G protein-coupled receptors - PubMed

Review

When 7 transmembrane receptors are not G protein-coupled receptors

Keshava Rajagopal et al. J Clin Invest. 2005 Nov.

Abstract

Classically, 7 transmembrane receptors transduce extracellular signals by coupling to heterotrimeric G proteins, although recent in vitro studies have clearly demonstrated that they can also signal via G protein-independent mechanisms. However, the physiologic consequences of this unconventional signaling, particularly in vivo, have not been explored. In this issue of the JCI, Zhai et al. demonstrate in vivo effects of G protein-independent signaling by the angiotensin II type 1 receptor (AT1R) (see the related article beginning on page 3045). In studies of the mouse heart, they compare the physiologic and biochemical consequences of transgenic cardiac-specific overexpression of a mutant AT1R incapable of G protein coupling with those of a wild-type receptor. Their results not only provide the first glimpse of the physiologic effects of this newly appreciated mode of signaling but also provide important and previously unappreciated clues as to the underlying molecular mechanisms.

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Figures

**Figure 1**
An integrated model of signal transduction via the AT1R and resultant physiologic effects within the cardiovascular system. Upon agonist ligand (Ang II) binding to the AT1R, both G protein–dependent and G protein–independent signaling pathways are activated. The AT1R is principally coupled to G_αq, as illustrated, but may also couple to G_αi (not shown). Agonist-induced G_αq activation results in activation of phospholipase C (PLC), which catalyzes breakdown of the membrane lipid phosphatidylinositol-4,5-bisphosphate (PIP₂) into inositol triphosphate (IP₃) and diacylglycerol (DAG), which respectively act to increase cytosolic Ca²⁺ concentrations and to activate PKC. Proximally, a series of events results in the inhibition of initiation of G_αq-mediated signaling (desensitization). Agonist-ligand binding induces GRKs to catalyze cytoplasmic serine/threonine phosphorylation, which enhances binding of β-arrestin to the AT1R cytoplasmic tail; this sterically inhibits G_αq coupling to the AT1R. β-arrestin also serves as a scaffold for signaling effectors such as Src, resulting in downstream activation of cytoplasmic ERK. Also, as illustrated, AT1R induces activation of the JAK/STAT pathway. Upon ligand stimulation, the multifunctional enzyme PI3K is recruited to the plasma membrane by interactions with GRK2 (20). In addition to its protein kinase activity, PI3K functions to catalyze the conversion of PIP₂ to phoshatidylinositol-3,4,5-triphosphate (PIP₃) to promote 7TMR internalization (20). Both G protein–dependent and –independent pathways have distinct physiologic and pathophysiologic effects, as shown. The acute physiologic effects of G protein–independent signaling via AT1R as well as the chronic physiologic effects of G protein–independent signaling on ventricular function and systemic/pulmonary hemodynamics are unknown. The novel physiologic findings of Zhai et al. (3) are each listed and indicated with an asterisk.

Comment on

Cardiac-specific overexpression of AT1 receptor mutant lacking G alpha q/G alpha i coupling causes hypertrophy and bradycardia in transgenic mice.
Zhai P, Yamamoto M, Galeotti J, Liu J, Masurekar M, Thaisz J, Irie K, Holle E, Yu X, Kupershmidt S, Roden DM, Wagner T, Yatani A, Vatner DE, Vatner SF, Sadoshima J. Zhai P, et al. J Clin Invest. 2005 Nov;115(11):3045-56. doi: 10.1172/JCI25330. J Clin Invest. 2005. PMID: 16276415 Free PMC article.

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When 7 transmembrane receptors are not G protein-coupled receptors - PubMed