Föhr K J, Scott J, Ahnert-Hilger G, Gratzl M
Abteilung Anatomie und Zellbiologie der Universität Ulm, Oberer Eselsberg, Federal Republic of Germany.
Biochem J. 1989 Aug 15;262(1):83-9. doi: 10.1042/bj2620083.
The inositol 1,4,5-trisphosphate (IP3)-sensitive Ca2+ compartment of endocrine cells was studied with alpha-toxin- and digitonin-permeabilized rat insulinoma (RINA2) and rat pheochromocytoma (PC12) cells. The Ca2+ uptake was ATP-dependent, and submicromolar concentrations of IP3 specifically released the stored Ca2+. Half-maximal Ca2+ release was observed with 0.25-0.5 mumol of IP3/l, and the amount of Ca2+ released due to IP3 could be enhanced by additional loading of the Ca2+ compartment. Consecutive additions of the same concentration of IP3 for 1-2 h always released the same amount of Ca2+ without desensitization, providing an ideal basis to further characterize the IP3-induced Ca2+ release. Here we describe for the first time a reversible inhibitory effect of decavanadate on the IP3-induced Ca2+ release. Among the vanadium species tested (decavanadate, oligovanadate and monovanadate), only decavanadate was inhibitory, with a half-maximal effect at 5 mumol/l in both cell types. The effect of decavanadate could be overcome by increasing the amount of sequestered Ca2+ or added IP3. Decavanadate did not affect the ATP-driven Ca2+ uptake but oligovanadate was inhibitory on Ca2+ uptake. p-Hydroxymercuribenzoate (pHMB) at concentrations between 10 and 30 mumol/l also inhibited the Ca2+ release due to IP3. Thiol compounds such as dithiothreitol (DTT; 1 mmol/l) added before pHMB removed all its inhibitory effect on the IP3-induced Ca2+ release, whereas the inhibition caused by decavanadate was unaffected by DTT. Thus, the decavanadate-dependent inhibition functions by a distinctly different mechanism than pHMB and could serve as a specific tool to analyse various aspects of the IP3-induced Ca2+ release within endocrine cells.
利用α-毒素和洋地黄皂苷通透处理的大鼠胰岛素瘤(RINA2)细胞及大鼠嗜铬细胞瘤(PC12)细胞,对内分泌细胞中对肌醇1,4,5-三磷酸(IP3)敏感的Ca2+区室进行了研究。Ca2+摄取依赖于ATP,亚微摩尔浓度的IP3能特异性地释放储存的Ca2+。在0.25 - 0.5 μmol/L的IP3浓度下观察到半数最大Ca2+释放,并且通过额外加载Ca2+区室,IP3引起的Ca2+释放量可增加。连续1 - 2小时添加相同浓度的IP3总能释放相同量的Ca2+且不会脱敏,为进一步表征IP3诱导的Ca2+释放提供了理想基础。在此,我们首次描述了十钒酸盐对IP3诱导的Ca2+释放具有可逆抑制作用。在所测试的钒物种(十钒酸盐、低聚钒酸盐和单钒酸盐)中,只有十钒酸盐具有抑制作用,在两种细胞类型中其半数最大效应浓度均为5 μmol/L。增加螯合Ca2+的量或添加IP3可克服十钒酸盐的作用。十钒酸盐不影响ATP驱动的Ca2+摄取,但低聚钒酸盐对Ca2+摄取有抑制作用。浓度在10至30 μmol/L之间的对羟基汞苯甲酸(pHMB)也抑制IP3引起的Ca2+释放。在添加pHMB之前加入二硫苏糖醇(DTT;1 mmol/L)等硫醇化合物可消除其对IP3诱导的Ca2+释放的所有抑制作用,而十钒酸盐引起的抑制不受DTT影响。因此,十钒酸盐依赖性抑制作用的机制与pHMB明显不同,可作为分析内分泌细胞内IP3诱导的Ca2+释放各个方面的特异性工具。