Abstract
The action of ouabain, a cell membrane Na+, K+-ATPase blocker, on contractions induced by manganese ions (Mn2+) in Ca2+-free, isotonic solutions with varying concentrations of K+ in the external medium were investigated in order to evaluate the underlying role of external Na+ in Mn2+-induced contractions in isolated taenia coli of the guinea-pig. Mn2+ at 5 mM induced greater contractions as external isotonic K+ concentrations progressively increased from 10 to 100 mM. Ouabain (2 x 10(-4) M) completely inhibited tension development stimulated by 5 mM Mn2+ in isotonic, 30 mM K+ (96 mM Na+) medium. Whereas, the tension inhibitory effects of ouabain became progressively weaker as isotonic, external K+ concentrations increased to 60 mM, which successively decreased external Na+ concentrations. Eventually, ouabain failed to affect contractions stimulated by Mn2+ in isotonic, 126 mM K+, Na+-deficient medium. Ouabain caused progressively greater increase in cellular Na+ concentrations as the Na+ concentrations increased in the isotonic, K+ medium. While, pyruvate, which penetrates cell independently of external Na+, reversed the inhibition of tension by ouabain in isotonic, 30 mM K+, Na+-sufficient (96 mM) medium containing 5 mM Mn2+. These results suggested that Mn2+ induced the contraction, which was maintained by glucose transport depending on external Na+, in the case of Na+-sufficient medium in K+-depolarized taenia coli. However, it induced the contraction independent of external Na+, in the case of Na+-deficient, K+ medium. Ouabain might exhibit greater inhibition of the contraction induced by Mn2+ as the decrease in the Na+ gradient across the cell membranes continues.
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