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非L型电压依赖性钙通道控制大鼠基底动脉的血管张力。

Non-L-type voltage-dependent calcium channels control vascular tone of the rat basilar artery.

作者信息

Navarro-Gonzalez Manuel F, Grayson T Hilton, Meaney Kate R, Cribbs Leanne L, Hill Caryl E

机构信息

Division of Neuroscience, John Curtin School of Medical Research, Australian National University, Canberra, Australian Capital Territory, Australia.

出版信息

Clin Exp Pharmacol Physiol. 2009 Jan;36(1):55-66. doi: 10.1111/j.1440-1681.2008.05035.x. Epub 2008 Aug 26.

Abstract
  1. Constriction of cerebral arteries is considered to depend on L-type voltage-dependent calcium channels (VDCCs); however, many previous studies have used antagonists with potential non-selective actions. Our aim was to determine the expression and function of VDCCs in the rat basilar artery. 2. The relative expression of VDCC subtypes was assessed using quantitative polymerase chain reaction and immunohistochemistry. Data were correlated with physiological studies of vascular function. Domains I-II of the T channel subtypes expressed in the rat basilar artery were cloned and sequenced. 3. Blockade of L-type channels with nifedipine had no effect on vascular tone. In contrast, in the presence of nifedipine, hyperpolarization of short arterial segments produced relaxation, whereas depolarization of quiescent segments evoked constriction. 4. The mRNA and protein for L- and T-type VDCCs were strongly expressed in the main basilar artery and side branches, with Ca(V)3.1 and Ca(V)1.2 the predominant subtypes. 5. T-Type VDCC blockers (i.e. 1 micromol/L mibefradil, 10 micromol/L pimozide and 100 micromol/L flunarizine) decreased intracellular calcium in smooth muscle cells, relaxed and hyperpolarized arteries, whereas nickel chloride (100 micromol/L) had no effect. In contrast with nifedipine, 10 micromol/L nimodipine produced hyperpolarization and relaxation. 6. When arteries were relaxed with 10 micromol/L U73122 (a phospholipase C inhibitor) in the presence of nifedipine, 40 mmol/L KCl evoked depolarization and constriction, which was significantly reduced by 1 micromol/L mibefradil. 7. Sequencing of domains I-II revealed splice variants of Ca(V)3.1, which may impact on channel activity. 8. We conclude that vascular tone of the rat basilar artery results from calcium influx through nifedipine-insensitive VDCCs with pharmacology consistent with Ca(V)3.1 T-type channels.
摘要
  1. 脑动脉的收缩被认为依赖于L型电压依赖性钙通道(VDCCs);然而,许多先前的研究使用了具有潜在非选择性作用的拮抗剂。我们的目的是确定VDCCs在大鼠基底动脉中的表达和功能。2. 使用定量聚合酶链反应和免疫组织化学评估VDCC亚型的相对表达。数据与血管功能的生理学研究相关联。对在大鼠基底动脉中表达的T通道亚型的I-II结构域进行克隆和测序。3. 用硝苯地平阻断L型通道对血管张力没有影响。相反,在硝苯地平存在的情况下,短动脉段的超极化产生舒张,而静止段的去极化引起收缩。4. L型和T型VDCCs的mRNA和蛋白质在基底动脉主干和侧支中强烈表达,其中Ca(V)3.1和Ca(V)1.2是主要亚型。5. T型VDCC阻滞剂(即1微摩尔/升米贝地尔、10微摩尔/升匹莫齐特和100微摩尔/升氟桂利嗪)降低平滑肌细胞内的钙,使动脉舒张和超极化,而氯化镍(100微摩尔/升)没有作用。与硝苯地平相反,10微摩尔/升尼莫地平产生超极化和舒张。6. 当在硝苯地平存在的情况下用10微摩尔/升U73122(一种磷脂酶C抑制剂)使动脉舒张时,40毫摩尔/升氯化钾引起去极化和收缩,1微摩尔/升米贝地尔可显著减轻这种情况。7. I-II结构域的测序揭示了Ca(V)3.1的剪接变体,这可能影响通道活性。8. 我们得出结论,大鼠基底动脉的血管张力源于通过对硝苯地平不敏感的VDCCs的钙内流,其药理学特性与Ca(V)3.1 T型通道一致。

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