2006
DOI: 10.1007/s00018-006-6066-y
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Regulatory mechanisms involved in modulating RGS function

Abstract: Regulator of G-Protein Signaling (RGS) refers to a conserved 120-125 amino acid motif that was first identified by its ability to negatively regulate G-Protein-Coupled Receptor (GPCR) signalling. Mechanistically, RGSs were found to regulate GPCR responses by binding to and stimulating the GTPase activity of the receptor-activated GTP-bound G alpha subunits. There are now over 25 mammalian RGSs containing proteins that are reported to carry out a variety of functions, many of which are unrelated to GPCR signall… Show more

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Cited by 24 publications
(28 citation statements)
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References 197 publications
(272 reference statements)
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“…RGS2 modulates stress response signaling by several mechanisms (36,37). First, it inactivates the G αq subunit, which can suppress downstream Ca 2+ -activated cascades (including Cn and CaMKII) and MAPKs (including ERK and JNK), as shown in the current study.…”
Section: Figuresupporting
confidence: 61%
“…RGS2 modulates stress response signaling by several mechanisms (36,37). First, it inactivates the G αq subunit, which can suppress downstream Ca 2+ -activated cascades (including Cn and CaMKII) and MAPKs (including ERK and JNK), as shown in the current study.…”
Section: Figuresupporting
confidence: 61%
“…Although we described these proteins in a recent review (3), here we define their relationships in detail based on combined sequence and structural considerations. The first domain upstream of the PX domain is the RGS module, found in a number of molecules that act as GAPs to attenuate GPCR-mediated G-protein signal transduction (7,8). This domain is found in SNX13, SNX14, and SNX25, but not in SNX19 where the corresponding region, although similar in length, shows little sequence homology and has no predicted secondary struc-ture.…”
Section: Defining the Rgs-px Protein Family-mentioning
confidence: 99%
“…All but SNX19 possess a regulator of G-protein signaling (RGS) domain. RGS domains are small ␣-helical structures that act as GAPs for G␣ subunits of heterotrimeric G-proteins, and thus play critical roles in attenuating G-protein coupled receptor (GPCR) signaling (7,8). SNX13 (also called RGS-PX1) was identified as a specific GAP and regulator of the trimeric G-protein subunit G␣ s involved in cAMP signaling from GPCRs such as the serotonin and ␤-adrenergic receptors (9).…”
mentioning
confidence: 99%
“…It is noteworthy that GAP only increases the velocity of GTPase activity; the key to the regulation mediated by G proteins consists of a GTPase activity that provides a short and definite activity lapse, since overstimulation generates hyperactivity and can lead to pathological situations such as cancer or dehydration, similar to the toxic effect of the cholera toxin (Jean-Baptiste, Yang, & Greenwood, 2006).…”
Section: Signalling Through G Protein Coupled Receptorsmentioning
confidence: 99%