新生大鼠离体心室肌细胞中的钙电流
Calcium current in isolated neonatal rat ventricular myocytes.
作者信息
Cohen N M, Lederer W J
机构信息
Department of Physiology, University of Maryland, School of Medicine, Baltimore 21201.
出版信息
J Physiol. 1987 Oct;391:169-91. doi: 10.1113/jphysiol.1987.sp016732.
Abstract
- Calcium currents (ICa) from neonatal rat ventricular heart muscle cells grown in primary culture were examined using the 'whole-cell' voltage-clamp technique (Hamill, Marty, Neher, Sakmann & Sigworth, 1981). Examination of ICa was limited to one calcium channel type, 'L' type (Nilius, Hess, Lansman & Tsien, 1985), by appropriate voltage protocols. 2. We measured transient and steady-state components of ICa, and could generally describe ICa in terms of the steady-state activation (d infinity) and inactivation (f infinity) parameters. 3. We observed that the reduction of ICa by the calcium channel antagonist D600 can be explained by both a shift of d infinity to more positive potentials as well as a slight reduction of ICa conductance. D600 did not significantly alter either the rate of inactivation of ICa or the voltage dependence of f infinity. 4. The calcium channel modulator BAY K8644 shifted both d infinity and f infinity to more negative potentials. Additionally, BAY K8644 increased the rate of inactivation at potentials between +5 and +55 mV. Furthermore, BAY K8644 also increased ICa conductance, a change consistent with a promotion of 'mode 2' calcium channel activity (Hess, Lansman & Tsien, 1984). 5. We conclude that, as predicted by d infinity and f infinity, there is a significant steady-state component of ICa ('window current') at plateau potentials in neonatal rat heart cells. Modulation of the steady-state and transient components of ICa by various agents can be attributed both to specific alterations in d infinity and f infinity and to more complicated alterations in the mode of calcium channel activity.
摘要
- 使用“全细胞”电压钳技术(Hamill、Marty、Neher、Sakmann和Sigworth,1981年)检测原代培养的新生大鼠心室肌细胞的钙电流(ICa)。通过适当的电压方案,对ICa的检测仅限于一种钙通道类型,即“L”型(Nilius、Hess、Lansman和Tsien,1985年)。2. 我们测量了ICa的瞬态和稳态成分,并且通常可以根据稳态激活(d无穷大)和失活(f无穷大)参数来描述ICa。3. 我们观察到,钙通道拮抗剂D600对ICa的降低作用可通过d无穷大向更正电位的偏移以及ICa电导的轻微降低来解释。D600并未显著改变ICa的失活速率或f无穷大的电压依赖性。4. 钙通道调节剂BAY K8644使d无穷大和f无穷大均向更负的电位偏移。此外,BAY K8644增加了+5至+55 mV电位之间的失活速率。此外,BAY K8644还增加了ICa电导,这一变化与促进“模式2”钙通道活性一致(Hess、Lansman和Tsien,1984年)。5. 我们得出结论,正如d无穷大和f无穷大所预测的那样,新生大鼠心脏细胞在平台期电位存在显著的ICa稳态成分(“窗电流”)。各种药物对ICa稳态和瞬态成分的调节可归因于d无穷大和f无穷大的特定改变以及钙通道活性模式的更复杂改变。
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