Renal tubular epithelial cell apoptosis is associated with caspase cleavage of the NHE1 Na+/H+ exchanger

doi:10.1152/ajprenal.00314.2002

Renal tubular epithelial cell apoptosis is associated with caspase cleavage of the NHE1 Na⁺/H⁺ exchanger

Karen L. Wu¹^,², Shenaz Khan¹^,², Sujata Lakhe-Reddy¹^,², Liming Wang², George Jarad¹^,², R. Tyler Miller¹^,³, Martha Konieczkowski¹^,², Arthur M. Brown¹^,⁴, John R. Sedor¹^,²^,⁴, and Jeffrey R. Schelling¹^,²

Departments of ¹ Medicine and ⁴ Physiology and Biophysics, and ² Rammelkamp Center for Education and Research, Case Western Reserve University School of Medicine, Cleveland 44109; and ³ Louis B. Stokes Veterans Administration Medical Center, Cleveland, Ohio 44106

Renal tubular epithelial cell (RTC) apoptosis causes tubular atrophy, a hallmark of renal disease progression. Apoptosis isgenerally characterized by reduced cell volume and cytosolic pH,but epithelial cells are relatively resistant to shrinkage dueto regulatory volume increase, which is mediated by Na⁺/H⁺ exchanger (NHE) 1. We investigated whether RTC apoptosis requirescaspase cleavage of NHE1. Staurosporine- and hypertonic NaCl-inducedRTC apoptosis was associated with cell shrinkage and diminishedcytosolic pH, and apoptosis was potentiated by amiloride analogs,suggesting NHE1 activity opposes apoptosis. NHE1-deficient fibroblastsdemonstrated increased susceptibility to apoptosis, which wasreversed by NHE1 reconstitution. NHE1 expression was markedlydecreased in apoptotic RTC due to degradation, and preincubationwith peptide caspase antagonists restored NHE1 expression, indicatingthat NHE1 is degraded by caspases. Recombinant caspase-3 cleavedthe in vitro-translated NHE1 cytoplasmic domain into five distinctpeptides, identical in molecular weight to NHE1 degradation productsderived from staurosporine-stimulated RTC lysates. In vivo, NHE1loss-of-function C57BL/6.SJL-swe/swe mice with adriamycin-inducednephropathy demonstrated increased RTC apoptosis compared withadriamycin-treated wild-type controls, thereby implicating NHE1inactivation as a potential mechanism of tubular atrophy. We concludethat NHE1 activity is critical for RTC survival after injury andthat caspase cleavage of RTC NHE1 may promote apoptosis and tubularatrophy by preventing compensatory intracellular volume and pHregulation.

cell death; nephropathy; regulatory volume increase; renal disease; tubular atrophy; Na⁺/H⁺ exchanger 1

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