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GTP-Binding Protein alpha Subunits
About: GTP-Binding Protein alpha Subunits is a research topic. Over the lifetime, 304 publications have been published within this topic receiving 19915 citations.
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TL;DR: The Gα13 activation biosensors showed a rapid and robust response when used in primary human endothelial cells that were exposed to thrombin, triggering endogenous protease activated receptors (PARs) and was efficiently inhibited by the RGS domain of p115-RhoGEF and from the biosensor data the authors inferred that this is due to GAP activity.
Abstract: Forster Resonance Energy Transfer (FRET) provides a way to directly observe the activation of heterotrimeric G-proteins by G-protein coupled receptors (GPCRs). To this end, FRET based biosensors are made, employing heterotrimeric G-protein subunits tagged with fluorescent proteins. These FRET based biosensors complement existing, indirect, ways to observe GPCR activation. Here we report on the insertion of mTurquoise2 at several sites in the human Gα13 subunit, aiming to develop a FRET-based Gα13 activation biosensor. Three fluorescently tagged Gα13 variants were found to be functional based on i) plasma membrane localization and ii) ability to recruit p115-RhoGEF upon activation of the LPA2 receptor. The tagged Gα13 subunits were used as FRET donor and combined with cp173Venus fused to the Gγ2 subunit, as the acceptor. We constructed Gα13 biosensors by generating a single plasmid that produces Gα13-mTurquoise2, Gβ1 and cp173Venus-Gγ2. The Gα13 activation biosensors showed a rapid and robust response when used in primary human endothelial cells that were exposed to thrombin, triggering endogenous protease activated receptors (PARs). This response was efficiently inhibited by the RGS domain of p115-RhoGEF and from the biosensor data we inferred that this is due to GAP activity. Finally, we demonstrated that the Gα13 sensor can be used to dissect heterotrimeric G-protein coupling efficiency in single living cells. We conclude that the Gα13 biosensor is a valuable tool for live-cell measurements that probe spatiotemporal aspects of Gα13 activation.
21 citations
TL;DR: It is hypothesize that these novel nematode-specific Gα genes increase the functional complexity of individual chemosensory neurons, enabling them to integrate odor signals from the multiple distinct ORs expressed on their membranes.
Abstract: In animal olfactory systems, odorant molecules are detected by olfactory receptors (ORs). ORs are part of the G-protein-coupled receptor (GPCR) superfamily. Heterotrimeric guanine nucleotide binding G-proteins (G-proteins) relay signals from GPCRs to intracellular effectors. G-proteins are comprised of three peptides. The G-protein alpha subunit confers functional specificity to G-proteins. Vertebrate and insect Galpha-subunit genes are divided into four subfamilies based on functional and sequence attributes. The nematode Caenorhabditis elegans contains 21 Galpha genes, 14 of which are exclusively expressed in sensory neurons. Most individual mammalian cells express multiple distinct GPCR gene products, however, individual mammalian and insect olfactory neurons express only one functional odorant OR. By contrast C. elegans expresses multiple ORs and multiple Galpha subunits within each olfactory neuron. Here we show that, in addition to having at least one member of each of the four mammalian Galpha gene classes, C. elegans and other nematodes also possess two lineage-specific Galpha gene expansions, homologues of which are not found in any other organisms examined. We hypothesize that these novel nematode-specific Galpha genes increase the functional complexity of individual chemosensory neurons, enabling them to integrate odor signals from the multiple distinct ORs expressed on their membranes. This neuronal gene expansion most likely occurred in nematodes to enable them to compensate for the small number of chemosensory cells and the limited emphasis on cephalization during nematode evolution.
21 citations
TL;DR: In this study, in two heterologous expression systems a preference of Gαi over Gαq in the activation of K+ currents is confirmed and the helical domain of G αi proteins is implicate as a critical determinant of Gβγ signaling specificity.
21 citations
TL;DR: The structural features by which Gα13 interacts with RGL domains are revealed and suggest that molecular interactions occurring at the level of the plasma membrane are required for the functional activation of the RGL-containing family of RhoGEFs.
21 citations
Journal Article•
TL;DR: G alpha i2-deficient mice display a blunted inhibitory regulation of adenylyl cyclase, alterations in T cell maturation and function, a growth retardation and also develop a lethal diffuse colitis with clinical and histopathological features closely resembling ulcerative colitis in humans.
Abstract: G proteins couple receptors to effectors and thus regulate multiple biological processes. Here we report on the phenotypes of G alpha i2-deficient and G alpha o-deficient mice. G alpha i2-deficient mice display a blunted inhibitory regulation of adenylyl cyclase, alterations in T cell maturation and function, a growth retardation and also develop a lethal diffuse colitis with clinical and histopathological features closely resembling ulcerative colitis in humans, including the development of adenocarcinoma of the colon. G alpha o-deficient mice are also viable, but significantly smaller than wild-type controls.
21 citations