Abstract

Background. We recently reported that moderate degrees of adenosine triphosphate (ATP) depletion induced by chronic glycolytic inhibition or hypoxia increase the permeability of Caco-2 BBe enterocytic monolayers. Interestingly, the development of lactic acidosis induced by anaerobic glycolysis ameliorates the development of hyperpermeability caused by chronic ATP depletion. We sought to further elucidate the mechanism(s) responsible for the apparent protection against epithelial hyperpermeability afforded by mild acidosis under conditions of metabolic inhibition. Methods. Caco-2 BBe monolayers growing on permeable supports in bicameral chambers were incubated with 2-deoxyglucose (2DOG) in a glucose-free (Glu-) environment to inhibit glycolysis. Permeability was determined by measuring the transepithelial flux of fluorescein sulfonic acid. Concentrations of intracellular calcium [Ca 2+] i were determined fluorometrically by using fura-2. Results. When extracellular pH (pH 0) was maintained at 7.4 or 5.5, incubation of monolayers for 24 hours with Glu-/2DOG increased permeability and depleted intracellular ATP levels. However, keeping pH 0 at 7.0 to 6.0 ameliorated both the development of hyperpermeability and the depletion of ATP induced by Glu-/2DOG. These protective effects were observed under acidic conditions created either by addition to the medium of HCl or by incubation under an atmosphere containing 20% CO 2. Incubation with Glu-/2DOG caused bulging of the apical membranes of cells (electron microscopy) and derangements in the perijunctional distribution of actin (fluorescence microscopy); however, these structural changes were ameliorated by mild acidosis. Acute chemical hypoxia at pH 0 7.4 induced by Glu-/2DOG plus antimycin A decreased cellular ATP levels and elevated [Ca 2+] i. Lowering pH 0 to 6.8 ameliorated both the depletion of ATP and the increase in [Ca 2+] i induced by Glu-/2DOG + antimycin A. Conclusions. Moderate decreases in pH ameliorate the hyperpermeability induced by metabolic inhibition, possibly by diminishing ATP depletion and blunting increases in [Ca 2+] i.

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