Hydrolysis of nicotinamide-adenine dinucleotide by purified renal brush-border membranes. Mechanism of NAD+ inhibition of brush-border membrane phosphate-transport activity.

Purified rat renal brush-border membrane vesicles possess a heat-labile enzyme activity which hydrolyses NAD+. A reciprocal relationship exists between the disappearance of NAD+ and the appearance of adenosine; 2 mol of Pi are liberated from each mol of NAD+ incubated with brush-border membrane vesicles. Freezing and thawing brush-border membrane vesicles does not enhance the initial rate of NAD+ hydrolysis. Preincubation of brush-border membrane vesicles with NAD+ results in inhibition of Na+-dependent Pi-transport activity, whereas Na+-dependent glucose transport is not affected. EDTA, which prevents the release of Pi from NAD+ and which itself has no direct effect on brush-border membrane Pi transport, reverses the NAD+ inhibition of Na+-dependent Pi transport. These results suggest that it is the Pi liberated from NAD+ and not NAD+ itself that inhibits Na+-dependent Pi transport.