Inhibition of NaCl-induced heat shock protein 72 expression renders MDCK cells susceptible to high urea concentrations.

Exposure of Madin-Darby canine kidney (MDCK) cells to elevated extracellular NaCl concentrations is associated with increased heat shock protein 72 (HSP72) expression and improved survival of these pretreated cells upon exposure to an additional 600 mM urea in the medium. To establish a causal relationship between HSP72 expression and cell protection against high urea concentrations, two approaches to inhibit NaCl-induced HSP72 synthesis prior to exposure to 600 mM urea were employed. First, the highly specific p38 kinase inhibitor SB203580 was added (100 microM) to the hypertonic medium (600 mosm/kg H2O by NaCl addition, 2 days of exposure), which significantly reduced HSP72 mRNA abundance and HSP72 content. Survival of these cells after a 24-h urea treatment (600 mM) was markedly curtailed compared with appropriate controls. Second, a pcDNA3-based construct, containing 322 bases of the HSP72 open reading frame in antisense orientation and the geneticine resistance gene, was transfected into MDCK cells. Clones with strong inhibition of HSP72 synthesis and others which express the protein at normal levels (comparable to nontransfected MDCK cells) after heat shock treatment or hypertonic stress were established. When these transformants were subjected to hypertonic stress for 2 days prior to exposure to an additional 600 mM urea for 24 h, cell survival was significantly reduced in those clones in which HSP72 expression was strongly inhibited. These results provide further evidence for the protective function of HSP72 against high urea concentrations in renal epithelial cells.