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pubmed:abstractText |
1. Platelets containing adenine nucleotides labelled with (3)H and (14)C in vitro were aggregated biphasically with ADP and adrenaline. Amounts of ATP and ADP as well as the radioactivity of ATP, ADP, AMP, IMP, hypoxanthine and adenine were determined in platelets and plasma at different stages of aggregation. 2. ATP and ADP were released during the second aggregation phase and had a low specific radioactivity compared with the ATP and ADP retained by the cells. The specific radioactivity of intracellular nucleotides increased during release. The parameters observed with ADP and adrenaline as release inducers were the same as for collagen and thrombin. 3. Release induced by all four inducers was accompanied by conversion of cellular [(3)H]ATP into extracellular [(3)H]-hypoxanthine. By variation of temperature, inducer concentration, time after blood withdrawal and use of acetylsalicylic acid, the aggregation pattern caused by adrenaline and ADP could be made mono- or bi-phasic. Release or second-phase aggregation was intimately connected with the ATP-hypoxanthine conversion, whereas first phase aggregation was not. 4. The [(3)H]ATP-hypoxanthine conversion started immediately after ADP addition. With adrenaline it usually started with the appearance of the second aggregation phase. The conversion was present during first phase of ADP-induced aggregation only if a second phase were to follow. 5. When secondary aggregation took place while radioactive adenine was being taken up by the platelets, increased formation of labelled hypoxanthine still occurred, but there was either no change or an increase in the concentration of labelled ATP. 6. Biphasically aggregated platelets converted [(3)H]adenine more rapidly into [(3)H]-ATP and -hypoxanthine than non-aggregated platelets. Addition of [(3)H]adenine at different stages of biphasic aggregation showed that more [(3)H]hypoxanthine was formed during than after the release step. 7. We conclude that ADP and adrenaline, like thrombin and collagen, cause extrusion of non-metabolic granula-located platelet adenine nucleotides. During release metabolic ATP breaks down to hypoxanthine, and this process might reflect an ATP-requiring part of the release reaction.
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