加州海兔神经系统中乙酰胆碱的代谢。I. 胆碱的来源及其被完整神经组织的摄取。
Metabolism of acetylcholine in the nervous system of Aplysia californica. I. Source of choline and its uptake by intact nervous tissue.
作者信息
Schwartz J H, Eisenstadt M L, Cedar H
出版信息
J Gen Physiol. 1975 Mar;65(3):255-73. doi: 10.1085/jgp.65.3.255.
Although acetylcholine is a major neurotransmitter in Aplysia, labeling studies with methionine and serine showed that little choline was synthesized by nervous tissue and indicated that the choline required for the synthesis of acetylcholine must be derived exogenously. Aanglia in the central nervous system (abdominal, cerebral, and pleuropedals) all took up about 0.5 nmol of choline per hour at 9 muM, the concentration of choline we found in hemolymph. This rate was more than two orders of magnitude greater than that of synthesis from the labeled precursors. Ganglia accumulated choline by a process which has two kinetic components, one with a Michaelis constant between 2-8 muM. The other component was not saturated at 420 muM. Presumably the process with the high affinity functions to supply choline for synthesis of transmitter, since the efficiency of conversion to acetylcholine was maximal in the range of external concentrations found in hemolymph.
尽管乙酰胆碱是海兔体内的一种主要神经递质,但用甲硫氨酸和丝氨酸进行的标记研究表明,神经组织合成的胆碱很少,这表明乙酰胆碱合成所需的胆碱必须从外部获取。中枢神经系统中的神经节(腹神经节、脑和胸膜足神经节)在9μM(我们在血淋巴中发现的胆碱浓度)时,每小时大约摄取0.5 nmol的胆碱。这个速率比由标记前体合成的速率高出两个数量级以上。神经节通过一个具有两个动力学成分的过程积累胆碱,其中一个成分的米氏常数在2 - 8μM之间。另一个成分在420μM时未达到饱和。推测具有高亲和力的过程为递质合成提供胆碱,因为在血淋巴中发现的外部浓度范围内,转化为乙酰胆碱的效率最高。
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