ERK activation by urea in the renal inner medullary mIMCD3 cell line

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ERK activation by urea in the renal inner medullary mIMCD3 cell line

Xiao-Yan Yang, Zheng Zhang, and David M. Cohen

Divisions of Nephrology and Molecular Medicine, Oregon Health Sciences University and the Portland Veterans Affairs Medical Center, Portland, Oregon 97201

Urea- and NaCl-inducible extracellular signal-regulated kinase (ERK) phosphorylation exhibited dissimilar kinetics. Amongcell lines examined, the effect of urea was unique to mIMCD3 innermedullary collecting duct cells and MDCK cells. Urea-inducibleERK activation was ~10-fold less sensitive to the MEK inhibitor,PD-98059, than was that of NaCl. This difference did not appearto be accounted for by differential activation of MEK isoforms.Interestingly, the inhibitor of p38 activation, SB-203580, abrogatedthe effect of both urea and NaCl upon both ERK and MEK activation;however, the former was much less sensitive to the inhibitor.Consistent with this observation, NaCl was much more effectivethan urea at inducing p38 phosphorylation. The effect of hypertonicstress (e.g., sorbitol 100 mM) could be blocked by appropriatemedium dilution such that isotonicity was maintained. In markedcontrast, the effect of hyperosmotic urea could not be blockedin this fashion, implying the absence of dependence upon cellvolume. Together, these data suggest that cells of the renal innermedulla are potentially uniquely responsive to urea and that ureaand hypertonic stressors induce ERK activation through distinctmechanisms.

mitogen-activated protein kinase; sodium chloride; p38; extracellular signal-regulated kinase

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