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Browsing by Subject "Phosphatidylinositol 3-Kinases"
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Item CXCR4 expression in the bone marrow microenvironment is required for hematopoietic stem and progenitor cell maintenance and early hematopoietic regeneration after myeloablation(Oxford University Press, 2020-07) Singh, Pratibha; Mohammad, Khalid S.; Pelus, Louis M.; Microbiology and Immunology, School of MedicineThe bone marrow (BM) microenvironment/niche plays a key role in regulating hematopoietic stem and progenitor cell (HSPC) activities; however, mechanisms regulating niche cell function are not well understood. In this study, we show that niche intrinsic expression of the CXCR4 chemokine receptor critically regulates HSPC maintenance during steady state, and promotes early hematopoietic regeneration after myeloablative irradiation. At steady state, chimeric mice with wild-type (WT) HSPC and marrow stroma that lack CXCR4 show decreased HSPC quiescence, and their repopulation capacity was markedly reduced. Mesenchymal stromal cells (MSC) were significantly reduced in the BM of CXCR4 deficient mice, which was accompanied by decreased levels of the HSPC supporting factors stromal cell-derived factor-1 (SDF-1) and stem cell factor (SCF). CXCR4 also plays a crucial role in survival and restoration of BM stromal cells after myeloablative irradiation, where the loss of BM stromal cells was more severe in CXCR4-deficient mice compared to WT mice. In addition, transplantation of WT donor HSPC into CXCR4-deficient recipient mice demonstrated reduced HSPC homing and early hematopoietic reconstitution. We found that CXCR4 signaling attenuates irradiation-induced BM stromal cell loss by upregulating the expression of the antiapoptotic protein Survivin via the PI3K pathway. Our study suggests that SDF-1-CXCR4 signaling in the stromal microenvironment cells plays a crucial role in maintenance of HSPCs during homeostasis, and promotes niche regeneration and early hematopoietic reconstitution after transplantation. Modulation of CXCR4 signaling in the HSPC microenvironment could be a means to enhance hematopoietic recovery after clinical hematopoietic cell transplantation.Item Phosphatidylinositol 3-kinase activation is required for insulin-stimulated sodium transport in A6 cells(1998-04) Record, Rae D.; Froelich, Larry L.; Vlahos, Chris J.; Blazer-Yost, BonnieInsulin stimulates amiloride-sensitive sodium transport in models of the distal nephron. Here we demonstrate that, in the A6 cell line, this action is mediated by the insulin receptor tyrosine kinase and that activation of phosphatidylinositol 3-kinase (PI 3-kinase) lies downstream of the receptor tyrosine kinase. Functionally, a specific inhibitor of PI 3-kinase, LY-294002, blocks basal as well as insulin-stimulated sodium transport in a dose-dependent manner (IC50 approximately 6 microM). Biochemically, PI 3-kinase is present in A6 cells and is inhibited both in vivo and in vitro by LY-294002. Furthermore, a subsequent potential downstream signaling element, pp70 S6 kinase, is activated in response to insulin but does not appear to be part of the pathway involved in insulin-stimulated sodium transport. Together with previous reports, these results suggest that insulin may induce the exocytotic insertion of sodium channels into the apical membrane of A6 cells in a PI 3-kinase-mediated manner.Item Ras/ERK and PI3K/AKT signaling differentially regulate oncogenic ERG mediated transcription in prostate cells(PLOS, 2021-07-27) Strittmatter, Brady G.; Jerde, Travis J.; Hollenhorst, Peter C.; Pharmacology and Toxicology, School of MedicineThe TMPRSS2/ERG gene rearrangement occurs in 50% of prostate tumors and results in expression of the transcription factor ERG, which is normally silent in prostate cells. ERG expression promotes prostate tumor formation and luminal epithelial cell fates when combined with PI3K/AKT pathway activation, however the mechanism of synergy is not known. In contrast to luminal fates, expression of ERG alone in immortalized normal prostate epithelial cells promotes cell migration and epithelial to mesenchymal transition (EMT). Migration requires ERG serine 96 phosphorylation via endogenous Ras/ERK signaling. We found that a phosphomimetic mutant, S96E ERG, drove tumor formation and clonogenic survival without activated AKT. S96 was only phosphorylated on nuclear ERG, and differential recruitment of ERK to a subset of ERG-bound chromatin associated with ERG-activated, but not ERG-repressed genes. S96E did not alter ERG genomic binding, but caused a loss of ERG-mediated repression, EZH2 binding and H3K27 methylation. In contrast, AKT activation altered the ERG cistrome and promoted expression of luminal cell fate genes. These data suggest that, depending on AKT status, ERG can promote either luminal or EMT transcription programs, but ERG can promote tumorigenesis independent of these cell fates and tumorigenesis requires only the transcriptional activation function.Item The role of SHIP in the development and activation of mouse mucosal and connective tissue mast cells(The American Association of Immunologists, 2012-04-15) Ruschmann, Jens; Antignano, Frann; Lam, Vivian; Snyder, Kim; Kim, Connie; Essak, Martha; Zhang, Angela; Lin, Ann Hsu-An; Mali, Raghuveer Singh; Kapur, Reuben; Krystal, Gerald; Department of Pediatrics, IU School of MedicineAlthough SHIP is a well-established suppressor of IgE plus Ag-induced degranulation and cytokine production in bone marrow-derived mast cells (BMMCs), little is known about its role in connective tissue (CTMCs) or mucosal (MMCs) mast cells. In this study, we compared SHIP's role in the development as well as the IgE plus Ag and TLR-induced activation of CTMCs, MMCs, and BMMCs and found that SHIP delays the maturation of all three mast cell subsets and, surprisingly, that it is a positive regulator of IgE-induced BMMC survival. We also found that SHIP represses IgE plus Ag-induced degranulation of all three mast cell subsets and that TLR agonists do not trigger their degranulation, whether SHIP is present or not, nor do they enhance IgE plus Ag-induced degranulation. In terms of cytokine production, we found that in MMCs and BMMCs, which are poor producers of TLR-induced cytokines, SHIP is a potent negative regulator of IgE plus Ag-induced IL-6 and TNF-α production. Surprisingly, however, in splenic or peritoneal derived CTMCs, which are poor producers of IgE plus Ag-induced cytokines, SHIP is a potent positive regulator of TLR-induced cytokine production. Lastly, cell signaling and cytokine production studies with and without LY294002, wortmannin, and PI3Kα inhibitor-2, as well as with PI3K p85α(-/-) BMMCs and CTMCs, are consistent with SHIP positively regulating TLR-induced cytokine production via an adaptor-mediated pathway while negatively regulating IgE plus Ag-induced cytokine production by repressing the PI3K pathway.