999 resultados para Hommes âgés
Resumo:
Many chemoattractants cause chemotaxis of leukocytes by stimulating a structurally distinct class of G protein-coupled receptors. To identify receptor functions required for chemotaxis, we studied chemotaxis in HEK293 cells transfected with receptors for nonchemokine ligands or for interleukin 8 (IL-8), a classical chemokine. In gradients of the appropriate agonist, three nonchemokine Gi-coupled receptors (the D2 dopamine receptor and opioid μ and δ receptors) mediated chemotaxis; the β2-adrenoreceptor and the M3-muscarinic receptor, which couple respectively to Gs and Gq, did not mediate chemotaxis. A mutation deleting 31 C-terminal amino acids from the IL-8 receptor type B quantitatively impaired chemotaxis and agonist-induced receptor internalization, but not inhibition of adenylyl cyclase or stimulation of mitogen-activated protein kinase. To probe the possible relation between receptor internalization and chemotaxis, we used two agonists of the μ-opioid receptor. Morphine and etorphine elicited quantitatively similar chemotaxis, but only etorphine induced receptor internalization. Overexpression of two βγ sequestering proteins (βARK-ct and αt) prevented IL-8 receptor type B-mediated chemotaxis but did not affect inhibition of adenylyl cyclase by IL-8. We conclude that: (i) Nonchemokine Gi-coupled receptors can mediate chemotaxis. (ii) Gi activation is necessary but probably not sufficient for chemotaxis. (iii) Chemotaxis does not require receptor internalization. (iv) Chemotaxis requires the release of free βγ subunits.
Resumo:
One of the best-described transmembrane signal transduction mechanisms is based on receptor activation of the α subunit of the heterotrimeric G protein Gs, leading to stimulation of adenylyl cyclase and the production of cAMP. Intracellular cAMP is then thought to mediate its effects largely, if not entirely, by activation of protein kinase A and the subsequent phosphorylation of substrates which in turn control diverse cellular phenomena. In this report we demonstrate, by two different methods, that reduction or elimination of protein kinase A activity had no effect on phenotypes generated by activation of Gsα pathways in Drosophila wing epithelial cells. These genetic studies show that the Gsα pathway mediates its primary effects by a novel pathway in differentiating wing epithelial cells. This novel pathway may in part be responsible for some of the complex, cell-specific responses observed following activation of this pathway in different cell types.
Resumo:
Hormonal activation of Gs, the stimulatory regulator of adenylyl cyclase, promotes dissociation of αs from Gβγ, accelerates removal of covalently attached palmitate from the Gα subunit, and triggers release of a fraction of αs from the plasma membrane into the cytosol. To elucidate relations among these three events, we assessed biochemical effects in vitro of attached palmitate on recombinant αs prepared from Sf9 cells. In comparison to the unpalmitoylated protein (obtained from cytosol of Sf9 cells, treated with a palmitoyl esterase, or expressed as a mutant protein lacking the site for palmitoylation), palmitoylated αs (from Sf9 membranes, 50% palmitoylated) was more hydrophobic, as indicated by partitioning into TX-114, and bound βγ with 5-fold higher affinity. βγ protected GDP-bound αs, but not αs· GTP[γS], from depalmitoylation by a recombinant esterase. We conclude that βγ binding and palmitoylation reciprocally potentiate each other in promoting membrane attachment of αs and that dissociation of αs·GTP from βγ is likely to mediate receptor-induced αs depalmitoylation and translocation of the protein to cytosol in intact cells.
Resumo:
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