Effect of reserpine on adenosine uptake and metabolism, and subcellular transport of platelet adenosine triphosphate in washed rabbit platelets

Abstract

There is a slow exchange of adenine nucleotides between the metabolically active (cytoplasmic) pool and the releasable amine storage organelle pool of blood platelets. Reserpine is known to inhibit serotonin uptake into platelet storage organelles. Therefore, we have determined whether reserpine also inhibits the uptake of adenine nucleotides from the cytoplasm into the storage organelles of rabbit platelets. Transport of adenine nucleotides from the metabolically active pool into the releasable amine storage granule pool was followed by labeling the metabolically active pool of adenine nucleotides by incubating the platelets with [ 14C]adenosine or [ 14C]adenine. Practically complete release of amine storage granule constituents was induced at various times in aliquots of the labeled platelet suspensions by treatment with a high concentration of thrombin (0.45 units/ml. The fraction of the total labeled [ 14C]ATP released was taken as a measure of ATP transport from the metabolically active pool into the releasable pool. Reserpine (0.2 and 2 μM) decreased the rate of ATP transport into the storage granules by about 50 per cent. Platelets obtained from rabbits that had received 5 mg/kg of reserpine intraperitoneally 18 hr prior to the collection of blood released less ATP and ADP than control platelets from animals that had not received any drugs. This was not due to inhibition of the release reaction by reserpine. Since reserpine reduces the amount of adenine nucleotides in the storage granules, we conclude that if it affects the rate of efflux of adenine nucleotides from the granules at all, this effect must be slight compared with the inhibition of the uptake into the granules. Reserpine was also found to decrease the incorporation of [8- 14C]adenosine into platelet adenine nucleotides by inhibiting adenosine uptake into the platelets noncompetitively ( K i = 2 μM). Inosine uptake was also inhibited by reserpine. The effect of reserpine on adenosine uptake was reversible. In contrast, the effect of reserpine on ATP transfer from the metabolically active pool into the releasable pool was irreversible. This is in keeping with earlier observations that some reserpine binds to platelets reversibly and some binds irreversibly.