Evidence for HSP-mediated cytoskeletal stabilization in mesothelial cells during acute experimental peritoneal dialysis.
نویسندگان
چکیده
Low biocompatibility of peritoneal dialysis fluid (PDF) injures mesothelial cells and activates their stress response. In this study, we investigated the role of heat shock proteins (HSP), the main cytoprotective effectors of the stress response, in cytoskeletal stabilization of mesothelial cells in experimental peritoneal dialysis. In cultured human mesothelial cells, cytoskeletal integrity was assessed by detergent extractability of marker proteins following in vitro PDF exposure. Effects of HSP on stabilization of ezrin were evaluated by a conditioning protocol (PDF pretreatment) and repair assay, based on coincubation of cytoskeletal protein fractions with recombinant HSP-72 or HSP-72 antibodies. In the rat model, detachment of mesothelial cells from their peritoneal monolayer during in vivo PDF exposure was assessed with and without overexpression of HSP-72 (by heat conditioning). In vitro, cytoskeletal disruption on sublethal PDF exposure was demonstrated by significantly altered detergent extractability of ezrin and ZO-1. Restoration was associated with significant induction and cytoskeletal redistribution of HSP during recovery. Both the conditioning protocol and in vitro repair assay provided evidence for HSP-72-mediated cytoskeletal stabilization. In the rat model, overexpression of HSP-72 following heat conditioning resulted in significantly reduced detachment of mesothelial cells on in vivo exposure to PDF. Our results establish an essential role of HSP in repair and cytoprotection of cytoskeletal integrity in mesothelial cells following acute in vitro and in vivo exposure to PDF. Repeated exposure to PDF, as is the rule in the clinical setting, may not only cause repeat injury to mesothelial cells but rather represents a kind of inadvertent conditioning treatment.
منابع مشابه
Translational Physiology Evidence for HSP-mediated cytoskeletal stabilization in mesothelial cells during acute experimental peritoneal dialysis
Endemann M, Bergmeister H, Bidmon B, Boehm M, Csaicsich D, Malaga-Dieguez L, Arbeiter K, Regele H, Herkner K, Aufricht C. Evidence for HSP-mediated cytoskeletal stabilization in mesothelial cells during acute experimental peritoneal dialysis. Am J Physiol Renal Physiol 292: F47–F56, 2007; doi:10.1152/ajprenal.00503.2005.—Low biocompatibility of peritoneal dialysis fluid (PDF) injures mesothelia...
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BACKGROUND During peritoneal dialysis, mesothelial cells undergo epithelial-to-mesenchymal transition (EMT), resulting in markedly altered protein expression. This potentially includes heat-shock proteins (HSP), the main effectors of cellular repair. Thus, chronic cellular processes, such as EMT, may influence acute stress responses and thus survival of mesothelial cells following non-lethal in...
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Abstract Background: Mesothelium is composed of a single layer of mesothelial cells attached to a thin basement membrane supported by subserosal connective tissue it plays an important role in homeostasis, wound healing, fluid transport and inflammation. The introduction of peritoneal dialysis (PD) as a modality of renal replacement therapy has provoked much interest in the biology of perito...
متن کاملPeritoneal dialysis fluids can alter HSP expression in human peritoneal mesothelial cells.
BACKGROUND Acute exposure of mesothelial cells to peritoneal dialysis fluid (PDF) has been shown not only to result in injury but also to induce cytoprotective heat shock proteins (HSP). The aim of the present study was to evaluate the expression of HSP in a more chronic in vitro PDF exposure system, searching for a role of glucose degradation products (GDP). METHODS Human peritoneal mesothel...
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ورودعنوان ژورنال:
- American journal of physiology. Renal physiology
دوره 292 1 شماره
صفحات -
تاریخ انتشار 2007