1,720,994 research outputs found
Cyclooxygenase is an immediate-early gene induced by interleukin-1 in human endothelial cells
No full textThe monokine interleukin-1 (IL-1) inhibits endothelial cell growth and induces prostacyclin production in human endothelial cells. Since cyclooxygenase (Cox) is the rate-limiting enzyme in the synthesis of prostanoids, we evaluated the ability of IL-1 to stimulate Cox expression by human umbilical vein endothelial cells (HUVEC) in vitro. Our data demonstrate that 1) the Cox mRNA is expressed at low levels in untreated cells; 2) IL-1 alpha induces the Cox mRNA within 2 h, and this induction is sustained for more than 24 h; 3) IL-1 alpha induction is dose-dependent; 4) cycloheximide potentiates the induction of the Cox mRNA by IL-1 alpha while actinomycin D prevents the induction, and 5) IL-1 alpha also stimulates Cox production in a time-dependent fashion which correlates with the increase in prostacyclin synthesis. These data suggest that Cox is an immediate-early gene induced by IL-1 in HUVEC and may contribute to the regulation of the endothelial cell differentiation pathway in vitro
Extension of the life-span of human endothelial cells by an interleukin-1 alpha antisense oligomer
No full textThe proliferative potential of human diploid endothelial cells is finite, and cellular senescence in vitro is accompanied by the failure of the endothelial cell to respond to exogenous growth factors. Senescent human endothelial cells were shown to contain high amounts of the transcript for the cytokine interleukin-1 alpha (IL-1 alpha), a potent inhibitor of endothelial cell proliferation in vitro. In contrast, transformed human endothelial cells did not contain detectable IL-1 alpha messenger RNA. Treatment of human endothelial cell populations with an antisense oligodeoxynucleotide to the human IL-1 alpha transcript prevented cell senescence and extended the proliferative life-span of the cells in vitro. Removal of the IL-1 alpha antisense oligomer resulted in the generation of the senescent phenotype and loss of proliferative potential. These data suggest that human endothelial cell senescence in vitro is a dynamic process regulated by the potential intracellular activity of IL-1 alpha
The self-limiting nature of the mitogenic activity correlates with cyclin A proteolysis.
No full textJagged-1-dependent cell chord formation in vitro is modified by src and is resistant to the destabilization of actin stress fibers.
No full textCooperation between FGF1 and a soluble form of the notch ligand, Jagged-1, is required for a cell transformation.
No full textFGF-1 in normal and regenerating kidney: expression in mononuclear, interstitial, and regenerating epithelial cells
No full textThe proximal tubule epithelium regenerates following nephrotoxic damage. To determine the role of fibroblast growth factors (FGFs) in the regeneration of rat proximal tubule epithelial (RPTE) cells, we investigated proliferation, differentiation, and FGF-1 expression in vivo in rat kidney before and after nephrotoxic damage to the proximal tubule epithelium caused by S-(1,1,2,2-tetrafluoroethyl)-L-cysteine administration. In undamaged kidneys, FGF-1 was expressed in distal tubule elements, including cortical and medullary collecting ducts, as well as in blood vessels and glomeruli, but was absent in RPTE. One day after damage, there was an increase in proliferation of surviving proximal tubule epithelial cells and a coincident increase in FGF-1 expression in invading mononuclear cells. After this initial burst of proliferation, FGF-1 expression increased in poorly differentiated vimentin-positive regenerative epithelial cells, indicating that autocrine FGF-1 expression in the regenerative epithelium is a later event in the regeneration process. FGF-1 staining persisted in foci of macrophages, interstitial cells, and nephropathic tubules within areas of interstitial expansion 2 wk after damage. We concluded that transient paracrine and autocrine expression of FGF-1 could play mitogenic and/or morphogenic roles during tubular regeneration. Persistent expression in macrophages, fibroblasts, and nephropathic tubules may be associated with tubular degeneration. FGF-1 expression may be an important contributor to both tubular regeneration and degenerative disease following toxicant exposure
A role for fibroblast growth factor type-1 in nephrogenic repair. Autocrine expression in rat kidney proximal tubule epithelial cells in vitro and in the regenerating epithelium following nephrotoxic damage by S-(1,1,2,2-tetrafluoroethyl)-L-cysteine in vivo
No full textThe regenerating proximal tubule epithelium in the rat has striking similarity with rat kidney proximal tubule epithelial cells (RPTE) in primary culture (Wallin, A., Zhang, G., Jones, T. W., Jaken, S., and Stevens, J. L. (1992) Lab. Invest. 66, 474-484). We used this in vitro model to investigate mechanisms which may regulate aspects of nephrogenic repair in vivo, and in particular the role of fibroblast (heparin-binding) growth factor type-1 (FGF-1) expression. FGF-1 was present predominantly as a 14.3-kDa polypeptide in rat kidney. Biological activity and mRNA for FGF-1 increased dramatically in primary RPTE in culture along with an increase in a 18.3-kDa FGF-1. Cycloheximide blocked FGF-1 expression in primary culture indicating that the increase represents newly synthesized factor rather than release from the extracellular matrix. The maximal increase in expression occurs after the peak of RPTE proliferation. Activity was not present in the medium but intracellular FGF-1 was released from RPTE by scrape wounding. Immunohistochemical analysis showed that FGF-1 expression increased in regenerating proximal tubule epithelial cells 5 days after nephrotoxic damage. Collectively, the data suggest that autocrine expression of FGF-1 by regenerating proximal tubule epithelial cells plays a role in the regulation of nephrogenic repair
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