关于肾上腺嗜铬细胞中ATP水解与分泌的关系:儿茶酚胺释放过程中ATP(未水解)的排出。
On the relation between ATP splitting and secretion in the adrenal chromaffin cell: extrusion of ATP (unhydrolysed) during release of catecholamines.
作者信息
Douglas W W, Poisner A M
出版信息
J Physiol. 1966 Mar;183(1):249-56. doi: 10.1113/jphysiol.1966.sp007864.
Abstract
- Cats' adrenal glands were acutely denervated and perfused, in situ, with Locke's solution.2. When the medullary secretogogue Ba (2-10 mM) was added to the perfusion medium, large amounts of AMP and traces of ATP were found in the venous effluent from the adrenal gland along with the catecholamines. In this respect Ba mimicked the physiological secretogogue, acetylcholine.3. Control perfusions with known concentrations of ATP showed that under such conditions ATP was rapidly broken down within the adrenal vasculature.4. When such intravascular hydrolysis of ATP was suppressed by perfusing with a Ca-free, Mg-free Locke's solution containing 1-2 mM EDTA, catecholamine secretion induced by Ba was accompanied by the discharge of large amounts of ATP but relatively little AMP.5. The ATP that accompanied catecholamine secretion in such circumstances is assumed to derive from the ;heavy' nucleotide-rich chromaffin granules and it is concluded that the mechanism for catecholamine secretion does not depend on hydrolysis of the ATP within these granules.6. The release of ATP (unhydrolysed) supports the hypothesis that the chromaffin granules discharge their contents at the cell surface by the process of ;reverse pinocytosis'.
摘要
猫的肾上腺被急性去神经支配并在原位用洛克氏溶液灌注。
当将髓质分泌刺激物钡(2 - 10 mM)添加到灌注介质中时,在肾上腺静脉流出液中发现大量的AMP和微量的ATP,同时还有儿茶酚胺。在这方面,钡模拟了生理性分泌刺激物乙酰胆碱。
用已知浓度的ATP进行对照灌注表明,在这种情况下,ATP在肾上腺血管系统内迅速分解。
当用含有1 - 2 mM EDTA的无钙、无镁洛克氏溶液灌注来抑制ATP的这种血管内水解时,钡诱导的儿茶酚胺分泌伴随着大量ATP的释放,但AMP相对较少。
在这种情况下伴随儿茶酚胺分泌的ATP被认为来自“富含重”核苷酸的嗜铬颗粒,并且得出结论,儿茶酚胺分泌机制不依赖于这些颗粒内ATP的水解。
ATP(未水解)的释放支持了嗜铬颗粒通过“反向胞饮作用”在细胞表面释放其内容物的假说。
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