分泌机制。二磷酸腺苷和肾上腺素诱导血小板释放反应过程中腺嘌呤核苷酸的行为。

Secretory mechanisms. Behaviour of adenine nucleotides during the platelet release reaction induced by adenosine diphosphate and adrenaline.

作者信息

Holmsen H, Day H J, Setkowsky C A

出版信息

Biochem J. 1972 Aug;129(1):67-82. doi: 10.1042/bj1290067.

DOI:10.1042/bj1290067

PMID:4675006

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1174042/

Abstract

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.

摘要

体外含有用³H和¹⁴C标记的腺嘌呤核苷酸的血小板，与ADP和肾上腺素发生双相聚集。在聚集的不同阶段，测定血小板和血浆中ATP、ADP的含量以及ATP、ADP、AMP、IMP、次黄嘌呤和腺嘌呤的放射性。2. ATP和ADP在第二次聚集阶段释放，与细胞保留的ATP和ADP相比，其比放射性较低。释放过程中细胞内核苷酸的比放射性增加。以ADP和肾上腺素作为释放诱导剂观察到的参数与胶原和凝血酶相同。3. 所有四种诱导剂引起的释放都伴随着细胞内[³H]ATP转化为细胞外[³H] - 次黄嘌呤。通过改变温度、诱导剂浓度、采血后的时间以及使用乙酰水杨酸，肾上腺素和ADP引起的聚集模式可以变为单相或双相。释放或第二阶段聚集与ATP - 次黄嘌呤转化密切相关，而第一阶段聚集则不然。4. [³H]ATP - 次黄嘌呤转化在加入ADP后立即开始。对于肾上腺素，它通常在第二个聚集阶段出现时开始。仅当随后有第二阶段时，转化才会出现在ADP诱导聚集的第一阶段。5. 当放射性腺嘌呤被血小板摄取时发生二次聚集，标记的次黄嘌呤形成增加，但标记的ATP浓度要么没有变化要么增加。6. 双相聚集的血小板比未聚集的血小板更快地将[³H]腺嘌呤转化为[³H] - ATP和 - 次黄嘌呤。在双相聚集的不同阶段加入[³H]腺嘌呤表明，释放步骤期间形成的[³H]次黄嘌呤比释放后更多。7. 我们得出结论，ADP和肾上腺素与凝血酶和胶原一样，会导致位于非代谢颗粒中的血小板腺嘌呤核苷酸挤出。释放过程中代谢性ATP分解为次黄嘌呤，这一过程可能反映了释放反应中需要ATP的部分。