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Cyclic nucleotide phosphodiesterases of rabbit renal cortex. Characterization of brush border membrane activities.
Authors:C R Filburn  B Sacktor
Affiliation:Laboratory of Molecular Aging, National Institute on Aging, National Institutes of Health, Baltimore City Hospitals, Baltimore, Maryland 21224 USA
Abstract:Cyclic nucleotide phosphodiesterase activity in brush border membranes, isolated from proximal tubule cells of the rabbit renal cortex, was investigated. Brush border cAMP phosphodiesterase activity was tightly bound to the membrane and was distinguished from the soluble phosphodiesterase activity of the renal cortex cytosol. Multiple forms of the brush border membrane cAMP phosphodiesterase activity, dependent on the concentration of substrate, were found. When assayed with 1 μm or 1 mm cAMP, activities differed in pH optimum, effects of various divalent cations, inhibition by metal ion chelators and reactivation by metals, thermolability, sensitivity to inhibitors and specificity.Renal brush border membranes also possessed cGMP phosphodiesterase activity. cAMP was a relatively poor inhibitor of the hydrolysis of 1 μm cGMP and the hydrolysis of 1 μm cAMP was virtually insensitive to cGMP. These findings suggest that the low substrate concentration-dependent cAMP phosphodiesterase was distinct from the low substrate concentration-dependent cGMP phosphodiesterase.Heat-stable effectors of phosphodiesterase activity were found in the renal cortex. One effector activated soluble cAMP phosphodiesterase. Activation was decreased by EGTA, enhanced by Ca2+ and diminished by preincubating the effector with proteolytic enzymes. The other heat-stable effector inhibited brush border membrane phosphodiesterase activity. Inhibition was unaffected by metal ions, unaffected by preincubating the effector with proteolytic enzymes, but diminished by preincubation with phospholipase C and neuraminidase.It is suggested that changes in the activity of the enzyme (or enzymes), which in turn controls, in part, the effective concentration of cAMP at its site (or sites) of action in the renal cell, may be significant in regulating hormonal-dependent transport in the proximal tubule.
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