22 research outputs found
Regulator of G-protein signaling 18 controls both platelet generation and function
RGS18 is a myeloerythroid lineage-specific regulator of G-protein signaling, highly expressed in megakaryocytes (MKs) and platelets. In the present study, we describe the first generation of a RGS18 knockout mouse model (RGS18-/-). Interesting phenotypic differences between RGS18-/- and wild-type (WT) mice were identified, and show that RGS18 plays a significant role in both platelet generation and function. RGS18 deficiency produced a gain of function phenotype in platelets. In resting platelets, the level of CD62P expression was increased in RGS18-/- mice. This increase correlated with a higher level of plasmatic serotonin concentration. RGS18-/- platelets displayed a higher sensitivity to activation in vitro. RGS18 deficiency markedly increased thrombus formation in vivo. In addition, RGS18-/- mice presented a mild thrombocytopenia, accompanied with a marked deficit in MK number in the bone marrow. Analysis of MK maturation in vitro and in vivo revealed a defective megakaryopoiesis in RGS18-/- mice, with a lower bone marrow content of only the most committed MK precursors. Finally, RGS18 deficiency was correlated to a defect of platelet recovery in vivo under acute conditions of thrombocytopenia. Thus, we highlight a role for RGS18 in platelet generation and function, and provide additional insights into the physiology of RGS18
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Characterization of the antiproliferative signal mediated by the somatostatin receptor subtype sst5 (cyclic GMPycholecystokinin receptorymitogen-activated protein kinaseysomatostatin analogue RC-160ydecreased cell growth)
We investigated cell proliferation modulated by cholecystokinin (CCK) and somatostatin analogue RC-160 in CHO cells bearing endogenous CCKA receptors and stably transfected by human subtype sst5 somatostatin receptor. CCK stimulated cell proliferation of CHO cells. This effect was suppressed by inhibitor of the soluble guanylate cyclase, LY 83583, the inhibitor of the cGMP dependent kinases, KT 5823, and the inhibitor of mitogen-activated protein (MAP) kinase kinase, PD 98059. CCK treatment induced an increase of intracellular cGMP concentrations, but concomitant addi- tion of LY 83583 virtually suppressed this increase. CCK also activated both phosphorylation and activity of p42-MAP kinase; these effects were inhibited by KT 5823. All the effects of CCK depended on a pertussis toxin-dependent G protein. Somatostatin analogue RC-160 inhibited CCK-induced stim- ulation of cell proliferation but it did not potentiate the suppressive effect of the inhibitors LY 83583 and KT 5823. RC-160 inhibited both CCK-induced intracellular cGMP for- mation as well as activation of p42-MAP kinase phosphory- lation and activity. This inhibitory effect was observed at doses of RC-160 similar to those necessary to occupy the sst5 recombinant receptor and to inhibit CCK-induced cell pro- liferation. We conclude that, in CHO cells, the proliferation and the MAP kinase signaling cascade depend on a cGMP- dependent pathway. These effects are positively regulated by CCK and negatively inf luenced by RC-160, interacting through CCKA and sst5 receptors, respectively. These studies provide a characterization of the antiproliferative signal mediated by sst5 receptor
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Expression of SSTR2 somatostatin receptor subtype inhibted pancreatic tumor cell growth
Apelin/APJ signaling system: a potential link between adipose tissue and endothelial angiogenic processes.
International audienceAdipose tissue is an active endocrine organ that produces a variety of secretory factors involved in the initiation of angiogenic processes. The bioactive peptide apelin is the endogenous ligand of the G protein-coupled receptor, APJ. Here we investigated the potential role of apelin and its receptor, APJ, in the angiogenic responses of human endothelial cells and the development of a functional vascular network in a model of adipose tissue development in mice. Treatment of human umbilical vein endothelial cells with apelin dose-dependently increased angiogenic responses, including endothelial cell migration, proliferation, and Matrigel(R) capillary tubelike structure formation. These endothelial effects of apelin were due to activation of APJ, because siRNA directed against APJ, which led to long-lasting down-regulation of APJ mRNA, abolished cell migration induced by apelin in contrast to control nonsilencing siRNA. Hypoxia up-regulated the expression of apelin in 3T3F442A adipocytes, and we therefore determined whether apelin could play a role in adipose tissue angiogenesis in vivo. Epididymal white adipose tissue (EWAT) transplantation was performed as a model of adipose tissue angiogenesis. Transplantation led to increased apelin mRNA levels 2 and 5 days after transplantation associated with tissue hypoxia, as evidenced by hydroxyprobe staining on tissue sections. Graft revascularization evolved in parallel, as the first functional vessels in EWAT grafts were observed 2 days after transplantation and a strong angiogenic response was apparent on day 14. This was confirmed by determination of graft hemoglobin levels, which are indicative of functional vascularization and were strongly increased 5 and 14 days after transplantation. The role of apelin in the graft neovascularization was then assessed by local delivery of stable complex apelin-targeting siRNA leading to dramatically reduced apelin mRNA levels and vascularization (quantified by hemogloblin content) in grafted EWAT on day 5 when compared with control siRNA. Taken together, our data provide the first evidence that apelin/APJ signaling pathways play a critical role in the development of the functional vascular network in adipose tissue. In addition, we have shown that adipocyte-derived apelin can be up-regulated by hypoxia. These findings provide novel insights into the complex relationship between adipose tissue and endothelial vascular function and may lead to new therapeutic strategies to modulate angiogenesis