Xu Jianhua, Xu Yimei, Ellis-Davies Graham C R, Augustine George J, Tse Frederick W
Department of Pharmacology and Center for Neuroscience, University of Alberta, Edmonton, Alberta, T6G 2H7, Canada.
J Neurosci. 2002 Jan 1;22(1):53-61. doi: 10.1523/JNEUROSCI.22-01-00053.2002.
We examined the role of SNAPs, soluble proteins that attach N-ethylmaleimide-sensitive factor (NSF), in regulating exocytosis in single rat adrenal chromaffin cells. Whole-cell dialysis of Ca2+-buffered solution or photolysis of caged-Ca2+ was used to manipulate cytosolic Ca2+ concentration ([Ca2+]i), whereas exocytosis was measured via carbon fiber amperometry or membrane capacitance. Buffering [Ca2+]i to approximately 170 nm produced a mean rate of exocytosis of approximately one amperometric event per minute. Including alpha-SNAP (60 or 500 nm) in the intracellular solution dramatically increased the mean rate of exocytosis. The stimulatory action of alpha-SNAP requires ATP hydrolysis mediated via NSF, because this action was blocked by intracellular dialysis of ATP-gamma-S (2 mm) and could not be mimicked by a mutant alpha-SNAP that does not stimulate the ATPase activity of NSF. This action of alpha-SNAP was significant only at [Ca2+]i between 100 and 300 nm and was not shared by beta-SNAP (500 nm), suggesting that alpha-SNAP enhanced a component of exocytosis that is regulated by a high-affinity Ca2+ sensor. In cells dialyzed with both alpha- and beta-SNAP, the rate of exocytosis was smaller than that produced by alpha-SNAP alone, suggesting that alpha- and beta-SNAP interact competitively. Although only alpha-SNAP stimulated exocytosis at [Ca2+]i between 100 and 300 nm, both alpha- and beta-SNAP isoforms equally slowed the time-dependent rundown of the exocytic response. Our results indicate that alpha- and beta-SNAP have different actions in exocytosis. Thus, the ratio of different isoforms of SNAPs can determine release probability at the levels of [Ca2+]i that are involved in regulation of exocytosis.
我们研究了可溶性 NSF 附着蛋白(SNAPs)在调节单个大鼠肾上腺嗜铬细胞胞吐作用中的作用,SNAPs 是一种可附着 N - 乙基马来酰亚胺敏感因子(NSF)的可溶性蛋白。通过对 Ca²⁺缓冲溶液进行全细胞透析或对笼锁 Ca²⁺进行光解来操纵胞质 Ca²⁺浓度([Ca²⁺]i),而胞吐作用则通过碳纤维安培法或膜电容进行测量。将[Ca²⁺]i 缓冲至约 170 nM 时,胞吐作用的平均速率约为每分钟一次安培测量事件。在细胞内溶液中加入α - SNAP(60 或 500 nM)可显著提高胞吐作用的平均速率。α - SNAP 的刺激作用需要通过 NSF 介导的 ATP 水解,因为该作用被 ATP - γ - S(2 mM)的细胞内透析所阻断,并且不能被不刺激 NSF 的 ATP 酶活性的突变型α - SNAP 所模拟。α - SNAP 的这种作用仅在[Ca²⁺]i 为 100 至 300 nM 时显著,且β - SNAP(500 nM)不具有此作用,这表明α - SNAP 增强了由高亲和力 Ca²⁺传感器调节的胞吐作用的一个组分。在用α - SNAP 和β - SNAP 进行透析的细胞中,胞吐作用速率小于单独使用α - SNAP 时产生的速率,这表明α - SNAP 和β - SNAP 存在竞争性相互作用。尽管在[Ca²⁺]i 为 100 至 300 nM 时只有α - SNAP 刺激胞吐作用,但α - SNAP 和β - SNAP 同工型均同样减缓了胞吐反应的时间依赖性衰减。我们的结果表明,α - SNAP 和β - SNAP 在胞吐作用中具有不同的作用。因此,SNAPs 不同同工型的比例可以在参与胞吐作用调节的[Ca²⁺]i 水平上决定释放概率。