大鼠肠黏膜中依赖二价阳离子的维生素D和三磷酸腺苷酶
Vitamin D and adenosine triphosphatase dependent on divalent cations in rat intestinal mucosa.
作者信息
Kowarski S, Schachter D
出版信息
J Clin Invest. 1973 Nov;52(11):2765-73. doi: 10.1172/JCI107472.
Abstract
Intestinal brush borders prepared from vitamin D-deficient rats demonstrate increased susceptibility in vitro to fragmentation by shear forces or to loss of microvillus enzymes on treatment with EDTA. These effects are relatively nonspecific and are also observed in normal rats starved for 48 h. They may underlie prior observations that purport to demonstrate a vitamin D-dependent increase in brush border Ca-dependent ATPase. In addition, however, vitamin D increases ATPase activity dependent on certain divalent cations, including Ca and Zn, in whole-particulate suspensions pelleted by high-speed centrifugation of mucosal homogenates. This action is independent of changes in other microvillus enzymes, i.e. disaccharidases, and tissue distribution and cation specificity studies support the hypothesis that the mucosal whole-particulate ATPase is related to transport of Ca, Zn, and possibly other divalent cations.
摘要
从维生素D缺乏的大鼠制备的肠刷状缘在体外显示出对剪切力破碎或用乙二胺四乙酸(EDTA)处理后微绒毛酶丧失的易感性增加。这些作用相对非特异性,在饥饿48小时的正常大鼠中也观察到。它们可能是先前那些旨在证明刷状缘钙依赖性ATP酶有维生素D依赖性增加的观察结果的基础。然而,此外,维生素D会增加通过粘膜匀浆高速离心沉淀的全颗粒悬浮液中依赖于某些二价阳离子(包括钙和锌)的ATP酶活性。这种作用独立于其他微绒毛酶(即二糖酶)的变化,并且组织分布和阳离子特异性研究支持这样的假设,即粘膜全颗粒ATP酶与钙、锌以及可能其他二价阳离子的转运有关。
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