Characterization of Human Proximal Tubular Cells after Hypoxic Preconditioning: Constitutive and Hypoxia-Induced Expression of Heat Shock Proteins HSP70 (A, B, and C), HSC70, and HSP90

Martin A. Turman , Daniel A. Kahn , Scott L. Rosenfeld , Courtney A. Apple , Carlton M. Bates
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引用次数: 39

Abstract

In animal models of cardiac or cerebral ischemic preconditioning, induction of heat shock proteins (HSPs), especially HSP70, correlates with protection from subsequent injury. The extent of HSP70 induction after stress correlates inversely with initial HSP70 levels. Primate cells, unlike nonprimate cells, express high basal levels of HSP70; thus, primate cells may respond differently to preconditioning than nonprimate cells. We have demonstrated that exposing cultured human proximal tubular epithelial cells (PTEC) to 12 h of hypoxia followed by a 24-h recovery period (hypoxic preconditioning) induces resistance to subsequent hypoxic injury. Herein, we characterize the expression of HSP70, HSP90, and heat shock cognate-70 (HSC70) in PTEC under basal conditions and after hypoxic preconditioning. By Northern blot analysis, we demonstrate that hypoxic preconditioning of PTEC increases mRNA for HSP70 > HSP90 > HSC70. With reverse transcription and polymerase chain reaction, mRNA transcripts from three different HSP70 genes (HSP70 A, B, and C) were detected in unstressed PTEC. Transcripts from these genes were also detected in freshly isolated human renal cortex, indicating that all three genes are expressedin vivo.By Western blot analysis, we demonstrate that PTEC express high basal levels of HSP70, HSC70, and HSP90. Hypoxic preconditioning did not lead to a significant increase in protein content of any of these HSPs, despite increased mRNA levels. This suggests that HSP accumulation cannot account for the development of cytoresistance after hypoxic preconditioning in PTEC. However, high basal expression of HSP70 in human PTEC may contribute to their innate resistance for hypoxia.

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缺氧预处理后人近端小管细胞的表征:热休克蛋白HSP70 (A、B和C)、HSC70和HSP90的组成性和缺氧诱导表达
在心脏或脑缺血预处理的动物模型中,热休克蛋白(HSPs)的诱导,特别是HSP70,与对后续损伤的保护有关。应激后HSP70的诱导程度与初始HSP70水平呈负相关。与非灵长类细胞不同,灵长类细胞表达高基础水平的HSP70;因此,灵长类动物细胞对预处理的反应可能与非灵长类动物细胞不同。我们已经证明,将培养的人近端小管上皮细胞(PTEC)暴露于缺氧12小时,然后进行24小时的恢复期(缺氧预处理),可诱导对随后的缺氧损伤的抵抗。本研究表征了HSP70、HSP90和热休克同源蛋白70 (HSC70)在基础条件和缺氧预处理后PTEC中的表达。通过Northern blot分析,我们发现PTEC缺氧预处理增加了HSP70 > mRNA的表达;一半的在HSC70。通过逆转录和聚合酶链反应,在未胁迫的PTEC中检测到三种不同HSP70基因(HSP70 A、B和C)的mRNA转录物。这些基因的转录本也在新鲜分离的人肾皮质中检测到,表明这三个基因都在体内表达。通过Western blot分析,我们发现PTEC表达高基础水平的HSP70、HSC70和HSP90。缺氧预处理没有导致任何这些热休克蛋白含量的显著增加,尽管mRNA水平升高。这表明HSP积累不能解释PTEC缺氧预处理后细胞抗性的发展。然而,HSP70在人类PTEC中的高基础表达可能有助于它们对缺氧的先天抵抗。
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