一氧化氮对大鼠神经垂体钾通道的直接作用。
Direct actions of nitric oxide on rat neurohypophysial K+ channels.
作者信息
Ahern G P, Hsu S F, Jackson M B
机构信息
Department of Physiology, University of Wisconsin-Madison, Madison, WI 53706, USA.
出版信息
J Physiol. 1999 Oct 1;520 Pt 1(Pt 1):165-76. doi: 10.1111/j.1469-7793.1999.00165.x.
Abstract
- Nitric oxide (NO) has been shown to modulate neuropeptide secretion from the posterior pituitary. Here we show that NO activates large-conductance Ca2+-activated K+ (BK) channels in posterior pituitary nerve terminals. 2. NO, generated either by the photolysis of caged-NO or with chemical donors, irreversibly enhanced the component of whole-terminal K+ current due to BK channels and increased the activity of BK channels in excised patches. NO also inhibited the transient A-current. The time courses of these effects on K+ current were very different; activation of BK channels developed slowly over several minutes whereas inhibition of A-current immediately followed NO uncaging. 3. Activation of BK channels by NO occurred in the presence of guanylyl cyclase inhibitors and after removal of ATP or GTP from the pipette solution, suggesting a cGMP-independent signalling pathway. 4. The sulfhydryl alkylating agent N-ethyl maleimide (NEM) increased BK channel activity. Pretreatment with NEM occluded NO activation. 5. NO activation of BK channels occurred independently of voltage and cytoplasmic Ca2+ concentration. In addition, NO removed the strict Ca2+ requirement for channel activation, rendering channels highly active even at nanomolar Ca2+ levels. 6. These results suggest that NO, or a reactive nitrogen byproduct, chemically modifies nerve terminal BK channels or a closely associated protein and thereby produces an increase in channel activity. Such activation is likely to inhibit impulse activity in posterior pituitary nerve terminals and this may explain the inhibitory action of NO on secretion.
摘要
- 一氧化氮(NO)已被证明可调节垂体后叶的神经肽分泌。在此我们表明,NO可激活垂体后叶神经末梢中的大电导Ca2+激活K+(BK)通道。2. 通过笼状NO的光解或化学供体产生的NO,不可逆地增强了由于BK通道导致的全终末K+电流成分,并增加了切除膜片中BK通道的活性。NO还抑制了瞬态A电流。这些对K+电流影响的时间进程非常不同;BK通道的激活在几分钟内缓慢发展,而A电流的抑制在NO解笼后立即发生。3. NO对BK通道的激活在存在鸟苷酸环化酶抑制剂的情况下以及从移液管溶液中去除ATP或GTP后仍会发生,这表明存在一条不依赖cGMP的信号通路。4. 巯基烷基化剂N-乙基马来酰亚胺(NEM)增加了BK通道的活性。用NEM预处理可阻断NO的激活。5. NO对BK通道的激活与电压和细胞质Ca2+浓度无关。此外,NO消除了通道激活对Ca2+的严格要求,即使在纳摩尔Ca2+水平下也能使通道高度活跃。6. 这些结果表明,NO或一种活性氮副产物化学修饰了神经末梢BK通道或一种紧密相关的蛋白质,从而导致通道活性增加。这种激活可能会抑制垂体后叶神经末梢的冲动活动,这可能解释了NO对分泌的抑制作用。
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