Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A naturally occurring point mutation (R231H) within one of the major 3gamma-binding surface (switch II region) on the a subunit of Gs (alpha(s)) has previously been found to disrupt receptor-mediated activation of Gs. The disruption caused by mutating this conserved residue may be a general phenomenon for all a subunits. Homologous mutants of the alpha subunit of Gz [alpha(z); a negative regulator of adenylyl cyclase (AC)] and G16 (alpha16; a stimulator of phospholipase C) were constructed and examined for receptor-mediated regulation of their corresponding effectors. The mutant alphazR209H cannot be fully activated by the delta-opioid receptor, as indicated by the impairment of the inhibition of alpha(s)-stimulated AC and betagamma-mediated stimulation of AC type II (AC2). Similarly, the mutant alpha16R216H lost the ability to mediate receptor-induced activation of phospholipase C and AC2. The receptor coupling efficacy and promiscuity of alpha16R216H were eradicated. The mutation of the conserved arginine has no observable effect on the constitutive activities of the GTPase-deficient derivatives of both alpha(z) and alpha16. The alpha subunit of Gt1 (transducin; alphat1) attenuated betagamma-mediated stimulation of AC2 by sequestrating free betagamma subunits, but the mutant alphat1R204H showed reduced ability to scavenge betagamma-mediated AC2 activation. Presumably, mutation of the conserved arginine disrupted the subunit interactions in addition to the impairment of receptor interaction.
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PMID:Disruption of receptor-mediated activation of G protein by mutating a conserved arginine residue in the switch II region of the alpha subunit. 1053 70

Cardiac fibroblasts regulate formation of extracellular matrix in the heart, playing key roles in cardiac remodeling and hypertrophy. In this study, we sought to characterize cross-talk between Gq and Gs signaling pathways and its impact on modulating collagen synthesis by cardiac fibroblasts. Angiotensin II (ANG II) activates cell proliferation and collagen synthesis but also potentiates cyclic AMP (cAMP) production stimulated by beta-adrenergic receptors (beta-AR). The potentiation of beta-AR-stimulated cAMP production by ANG II is reduced by phospholipase C inhibition and enhanced by overexpression of Gq. Ionomycin and thapsigargin increased intracellular Ca2+ levels and potentiated isoproterenol- and forskolin-stimulated cAMP production, whereas chelation of Ca2+ with 1,2-bis(2-aminophenoxy)ethane-N,N,N', N'-tetraacetic acid/AM inhibited such potentiation. Inhibitors of tyrosine kinases, protein kinase C, or Gbetagamma did not alter this cross-talk. Immunoblot analyses showed prominent expression of adenylyl cyclase 3 (AC3), a Ca2+-activated isoform, along with AC2, AC4, AC5, AC6, and AC7. Of those isoforms, only AC3 and AC5/6 proteins were detected in caveolin-rich fractions. Overexpression of AC6 increased betaAR-stimulated cAMP accumulation but did not alter the size of the ANG II potentiation, suggesting that the cross-talk is AC isoform-specific. Isoproterenol-mediated inhibition of serum-stimulated collagen synthesis increased from 31 to 48% in the presence of ANG II, indicating that betaAR-regulated collagen synthesis increased in the presence of ANG II. These data indicate that ANG II potentiates cAMP formation via Ca2+-dependent activation of AC activity, which in turn attenuates collagen synthesis and demonstrates one functional consequence of cross-talk between Gq and Gs signaling pathways in cardiac fibroblasts.
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PMID:Angiotensin II enhances adenylyl cyclase signaling via Ca2+/calmodulin. Gq-Gs cross-talk regulates collagen production in cardiac fibroblasts. 1271