Moderate Hypoxia Increases Heat Shock Protein 90 Expression in Excised Rat Aorta

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Abstract

We hypothesized that heat shock protein 90 (HSP90) expression would be increased in vascular tissue exposed to a hypoxic stress that resulted in altered contractile function. We tested this hypothesis by subjecting excised rat aortic rings to a hypoxic stress that has been shown to reduce contractile force induced by arginine vasopressin (PO<sub>2</sub> ≈50 mm Hg for 1 h) and determining the effect on HSP90 expression. Concentration-response curves were determined for control and hypoxic excised rat aortic rings exposed to norepinephrine (n = 8) or KCl (n = 8). Hypoxia reduced the force generated in response to the highest concentration of each agonist. HSP90 expression was evaluated by immunoblotting (n = 6) and immunohistochemistry (n = 7). Both methods documented increased expression of HSP90 in hypoxic aortae as compared to controls. HSP90 expression was increased within the cytoplasm and in conjunction with the nucleus of vascular smooth muscle cells in the tunica media and also within vascular myointimal cells. We conclude that a hypoxic stress sufficient to induce contractile dysfunction increases HSP90 expression in rat aortic smooth muscle cells.

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Gregory Pratt (1996)

The multicomponent heat-shock protein (hsp) 90-based chaperone system is an ubiquitous protein-folding system in the cytoplasm of eukaryotes. Several signal transduction systems utilize an interaction with hsp90 as an essential component of the signaling pathway. The steroid and dioxin receptors are bound to hsp90 through their hormone-binding domains, and several of them must be bound to hsp90 in order to have a ligand-binding site. The binding of ligands to these receptors promotes their dissociation from hsp90, an event that is the first step in their signaling pathways. Several protein kinases, including the Src and Raf components of the MAP kinase system, are also bound to hsp90. Genetic studies in yeast have demonstrated that hsp90 is required for normal signaling via steroid and dioxin receptors and for the activity of Src in vivo. The hsp90-based chaperone system has been reconstituted from purified components, permitting detailed analysis of the molecular basis of the chaperone's role in signal transduction.

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Hypoxia has marked effects on artery calibre, which reflects important physiological control mechanisms that are altered in disease states. Hypoxia modifies the release of mediators, especially from the endothelium, and influences smooth muscle membrane potential and Ca2+ regulation. In this review, Roger Wadsworth evaluates the vasoconstrictor and vasodilator effects of hypoxia studied in vitro. In the future, drugs developed to act on the mediators or smooth muscle may be beneficial in the therapy of, for example, pulmonary hypertension or coronary vasospasm.