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血管加压素对A7r5大鼠平滑肌细胞中Ca2+动员、两条二价阳离子进入途径及Ca2+外流的刺激作用。

Vasopressin stimulation of Ca2+ mobilization, two bivalent cation entry pathways and Ca2+ efflux in A7r5 rat smooth muscle cells.

作者信息

Byron K, Taylor C W

机构信息

Loyola University Medical Center, Stritch School of Medicine, Cardiovascular Institute, Maywood, Il 60153, USA

出版信息

J Physiol. 1995 Jun 1;485 ( Pt 2)(Pt 2):455-68. doi: 10.1113/jphysiol.1995.sp020742.

DOI:10.1113/jphysiol.1995.sp020742
PMID:7666368
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1158005/
Abstract
  1. Arg8-vasopressin (AVP)-regulated Ca2+ transport were investigated in fura-2-loaded A7r5 cells using both single cell and population measurements. 2. AVP evokes an initial concentration-dependent rise in cytosolic free Ca2+ concentration ([Ca2+ ]i) to a peak which is independent of extracellular Ca2+, and a sustained Ca2+ signal that results from a balance between stimulation of Ca2+ entry and efflux. 3. Depletion of intracellular Ca2+ stores with thapsigargin, ionomycin, or prior treatment with AVP in Ca2(+)-free medium activates 'capacitative' entry of Ca2+, Ba2+ or Mn2+. Capacitative Mn2+ entry is inhibited by refilling stores with Ca2+; neither Sr2+ nor Ba2+ substitute for Ca2+ to give this effect. 4. In cells with empty stores, AVP stimulates further bivalent cation entry, and the effect persists when extracellular Na+ is replaced by N-methyl-D-glucamine or under depolarizing condition (extracellular KCl concentration ([KCl]o), 135 mM). This effect of AVP is not therefore merely a consequence of AVP causing membrane hyperpolarization or stimulation of Na(+)-Ca2+ exchange, but results from opening of a bivalent cation influx pathway. 5. Several lines of evidence indicate that AVP-stimulated bivalent cation entry is not a consequence of more complete emptying of the intracellular stores and consequent further activation of the capacitative pathway. AVP stimulates Ba2+ entry when the intracellular Ca2+ stores have been both emptied by ionomycin and prevented from refilling by thapsigargin. Mn2+ permeates the capacitative pathway, but AVP does not further increase Mn2+ entry, confirming that AVP does not further activate the capacitative pathway and that the two pathways differ in their permeability to Mn2+. When the extracellular [Sr2+] is low, empty stores do not stimulate detectable Sr2+ entry, but addition of AVP causes substantial Sr2+ entry. 6. A decrease in [Ca2+]i occurs when 50 nM AVP is added during a sustained elevation of [Ca2+]i evoked by thapsigargin. Since AVP does not inhibit the capacitative pathway, this result suggests that AVP stimulates Ca2+ extrusion. 7. We conclude that stimulation of Ca2+ mobilization, two modes of bivalent cation entry, and Ca2+ efflux all contribute to the complex concentration-dependent effects of AVP in A7r5 smooth muscle cells.
摘要
  1. 使用单细胞和群体测量方法,在负载fura - 2的A7r5细胞中研究了精氨酸加压素(AVP)调节的Ca²⁺转运。2. AVP引起细胞质游离Ca²⁺浓度([Ca²⁺]i)最初呈浓度依赖性升高至峰值,该峰值与细胞外Ca²⁺无关,以及由Ca²⁺内流和外流刺激之间的平衡导致的持续Ca²⁺信号。3. 用毒胡萝卜素、离子霉素或在无Ca²⁺培养基中预先用AVP处理耗尽细胞内Ca²⁺储存,可激活Ca²⁺、Ba²⁺或Mn²⁺的“容量性”内流。用Ca²⁺重新填充储存可抑制容量性Mn²⁺内流;Sr²⁺和Ba²⁺都不能替代Ca²⁺产生这种效应。4. 在储存为空的细胞中,AVP刺激进一步的二价阳离子内流,当细胞外Na⁺被N - 甲基 - D - 葡糖胺替代或在去极化条件下(细胞外KCl浓度([KCl]o)为135 mM)时,这种效应仍然存在。因此,AVP的这种效应不仅仅是AVP导致膜超极化或刺激Na⁺ - Ca²⁺交换的结果,而是由二价阳离子内流途径的开放引起的。5. 几条证据表明,AVP刺激的二价阳离子内流不是细胞内储存更完全排空以及随后容量性途径进一步激活的结果。当细胞内Ca²⁺储存被离子霉素排空并被毒胡萝卜素阻止重新填充时,AVP刺激Ba²⁺内流。Mn²⁺通过容量性途径渗透,但AVP不会进一步增加Mn²⁺内流,证实AVP不会进一步激活容量性途径,并且这两条途径对Mn²⁺的通透性不同。当细胞外[Sr²⁺]较低时,空的储存不会刺激可检测到的Sr²⁺内流,但添加AVP会导致大量Sr²⁺内流。6. 当在毒胡萝卜素引起的[Ca²⁺]i持续升高期间添加50 nM AVP时,[Ca²⁺]i会降低。由于AVP不会抑制容量性途径,这一结果表明AVP刺激Ca²⁺外流。7. 我们得出结论,Ca²⁺动员的刺激、两种二价阳离子内流模式以及Ca²⁺外流都有助于AVP在A7r5平滑肌细胞中产生复杂的浓度依赖性效应。
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/719dd7b0fc75/jphysiol00319-0183-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/137e3efd09f2/jphysiol00319-0176-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/81830cd4eca0/jphysiol00319-0178-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/4df572b0129e/jphysiol00319-0179-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/3f83a60a2703/jphysiol00319-0180-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/4c445cce1015/jphysiol00319-0181-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/719dd7b0fc75/jphysiol00319-0183-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/137e3efd09f2/jphysiol00319-0176-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/81830cd4eca0/jphysiol00319-0178-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/4df572b0129e/jphysiol00319-0179-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/3f83a60a2703/jphysiol00319-0180-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/4c445cce1015/jphysiol00319-0181-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce30/1158005/719dd7b0fc75/jphysiol00319-0183-a.jpg

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