Ouabain-induced lethal proximal tubule cell injury is prevented by glycine

Abstract

Exposure to 1 mM ouabain for greater than 30 min caused lethal cell injury to isolated rabbit proximal tubules as measured by increased lactate dehydrogenase release. Addition of 2 mM glycine or glutathione to the incubation medium prevented this injury and a sharp fall of cell ATP that accompanied it. Glycine and glutathione did not alter rapid, early effects of ouabain to deplete cell K+ and inhibit respiration. Preservation of cellular glutathione was not required for protection. Glycine did not ameliorate ouabain-induced increases of cell water and did not prevent lethal cell injury associated with cell swelling produced by incubation in a high K+ concentration medium. In contrast, 100 mM mannitol, which at least partially ameliorated swelling in both ouabain and high-K+ medium, prevented lethal injury in high-K+ medium and decreased it in the presence of ouabain. The combination of glycine and mannitol completely prevented ouabain-induced lethal injury and cell water increases. These observations indicate that glycine, unlike mannitol, does not protect against primary volume-induced insults. Ouabain-induced lethal cell injury results from a process that includes both a volume component ameliorated by mannitol and a volume-independent component that is prevented by glycine and is closely associated with accelerated ATP depletion.