(14C)腺嘌呤核苷酸及其衍生物从脑组织中的输出。河豚毒素抗性和钙离子需求成分。
Output of (14C)adenine nucleotides and their derivatives from cerebral tissues. Tetrodotoxin-resistant and calcium ion-requiring components.
作者信息
Pull I, McIlwain H
出版信息
Biochem J. 1973 Dec;136(4):893-901. doi: 10.1042/bj1360893.
Abstract
- Neocortical tissues, exposed briefly to [(14)C]adenine and containing over 98% of their (14)C as adenine nucleotides, when superfused with glucose-bicarbonate salines released about 0.1% of their (14)C content/min to the superfusate. 2. Addition of unlabelled adenosine to the superfusing fluid increased the (14)C output three- to four-fold; half-maximal increase was given by about 40mum-adenosine, and reasons are adduced for considering the activity of adenosine kinase to be a major factor in conditioning the (14)C output. Adenosine similarly increased the enhanced (14)C output caused by electrical excitation of the superfused tissue; it brought about only a small increase in tissue glycolysis. 3. Output of (14)C from the [(14)C]adenine-labelled tissues was increased when Ca(2+) was omitted from the superfusing fluids, but electrical stimulation did not then liberate more (14)C. Nevertheless, such tissues still responded to electrical stimulation by increased glycolysis, and their (14)C output again became susceptible to increase by electrical stimulation when Ca(2+) was restored. 4. The six-fold increase in tissue glycolysis caused by electrical excitation was almost completely inhibited by tetrodotoxin at 0.1mum and above, but this was associated with about 50% inhibition only in the output of (14)C from tissues preincubated with [(14)C]adenine. The (14)C-labelled compounds of which output was most inhibited by tetrodotoxin were adenosine, inosine and hypoxanthine whereas output in a nucleotide fraction was little affected.
摘要
- 新皮质组织短暂暴露于[¹⁴C]腺嘌呤后,其¹⁴C的98%以上以腺嘌呤核苷酸形式存在,当用葡萄糖 - 碳酸氢盐盐水进行灌流时,每分钟向灌流液中释放其¹⁴C含量的约0.1%。2. 向灌流液中添加未标记的腺苷可使¹⁴C的释放量增加三至四倍;约40μmol - 腺苷可产生半数最大增加量,并且有理由认为腺苷激酶的活性是调节¹⁴C释放量的主要因素。腺苷同样增加了由灌流组织的电刺激所引起的¹⁴C释放量的增强;它仅使组织糖酵解有少量增加。3. 当灌流液中省略Ca²⁺时,来自[¹⁴C]腺嘌呤标记组织的¹⁴C释放量增加,但此时电刺激并不会释放更多的¹⁴C。然而,此类组织仍会通过增加糖酵解对电刺激作出反应,并且当恢复Ca²⁺时,它们的¹⁴C释放量会再次因电刺激而易于增加。4. 电刺激引起的组织糖酵解六倍增加几乎完全被0.1μmol及以上的河豚毒素所抑制,但这仅与用[¹⁴C]腺嘌呤预孵育的组织中¹⁴C释放量约50%的抑制相关。河豚毒素对其释放抑制作用最大的¹⁴C标记化合物是腺苷、肌苷和次黄嘌呤,而核苷酸部分的释放量受影响较小。
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