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Cardiac sodium channels (hH1) are intrinsically more sensitive to block by lidocaine than are skeletal muscle (mu 1) channels

机译：与骨骼肌（mu 1）通道相比心脏钠通道（hH1）本质上对利多卡因的阻滞更为敏感

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When lidocaine is given systemically, cardiac Na channels are blocked preferentially over those in skeletal muscle and nerve. This apparent increased affinity is commonly assumed to arise solely from the fact that cardiac Na channels spend a large fraction of their time in the inactivated state, which exhibits a high affinity for local anesthetics. The oocyte expression system was used to compare systematically the sensitivities of skeletal (mu 1-beta 1) and cardiac (hH1-beta 1) Na channels to block by lidocaine, under conditions in which the only difference was the choice of alpha subunit. To check for differences in tonic block, Na currents were elicited after 3 min of exposure to various lidocaine concentrations at -100 mV, a potential at which both hH1-beta 1 and mu 1-beta 1 channels were fully reprimed. Surprisingly, hH1-beta 1 Na channels were threefold more sensitive to rested-state block by lidocaine (402 +/- 36 microM, n = 4-22) than were mu 1-beta 1 Na channels (1,168 +/- 34 microM, n = 7-19). In contrast, the inactivated state binding affinities determined at partially depolarized holding potentials (h infinity approximately 0.2) were similar (Kd = 16 +/- 1 microM, n = 3-9 for hH1-beta 1 and 12 +/- 2 microM, n = 4-11 for mu 1-beta 1). Lidocaine produced more use- dependent block of peak hH1-beta 1 Na current elicited by trains of short-(10 ms) or long- (1 s) duration step depolarizations (0.5 Hz, -20 mV) than of mu 1-beta 1 Na current. During exposure to lidocaine, hH1- beta 1 channels recover from inactivation at -100 mV after a prolonged delay (20 ms), while mu 1-beta 1 channels begin repriming immediately. The overall time course of recovery from inactivation in the presence of lidocaine is much slower in hH1-beta 1 than in mu 1-beta 1 channels. These unexpected findings suggest that structural differences in the alpha subunits impart intrinsically different lidocaine sensitivities to the two isoforms. The differences in steady state affinities and in repriming kinetics are both in the correct direction to help explain the increased potency of cardiac Na channel block by local anesthetics.

机译：当全身给予利多卡因时，心脏的Na通道优先于骨骼肌和神经通道的Na通道被阻断。通常认为这种明显增加的亲和力仅是由于心脏Na通道大部分时间处于灭活状态这一事实引起的，这对局部麻醉药表现出很高的亲和力。卵母细胞表达系统用于系统比较骨骼（mu 1-beta 1）和心脏（hH1-beta 1）Na通道被利多卡因阻断的敏感性，条件是唯一的区别是选择α亚基。为了检查补品阻滞剂的差异，在-100 mV的各种利多卡因浓度下暴露3分钟后，引起Na电流，这是hH1-beta 1和mu 1-beta 1通道均被完全引发的电位。令人惊讶的是，hH1-beta 1 Na通道对利多卡因的静息状态阻滞的敏感性（402 +/- 36 microM，n = 4-22）比mu 1-beta 1 Na通道（1,168 +/- 34 microM， n = 7-19）。相反，在部分去极化的保持电势（h无穷大约为0.2）下确定的失活状态结合亲和力相似（Kd = 16 +/- 1 microM，hH1-beta 1为n-9 3和12 +/- 2 microM，对于mu 1-beta 1，n = 4-11）。与mu 1-beta 1相比，利多卡因产生的短时（10 ms）或长时（1 s）阶跃去极化（0.5 Hz，-20 mV）序列引起的hH1-β1 Na峰值电流的使用依赖性更强的阻断。娜电流。在暴露于利多卡因的过程中，hH1-β1通道经过长时间的延迟（20毫秒）后在-100 mV的失活中恢复，而mu 1-beta 1通道立即开始引发。在存在利多卡因的情况下，从失活中恢复的总体时间过程在hH1-beta 1中比在mu 1-beta 1通道中要慢得多。这些出乎意料的发现表明，α亚基的结构差异赋予两种同工型本质上不同的利多卡因敏感性。稳态亲和力和启动动力学的差异都在正确的方向上，以帮助解释局部麻醉药对心脏钠通道阻滞作用的增强作用。

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期刊名称 The Journal of General Physiology
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年(卷),期 1995(106),6
年度 1995
页码 1193–1209
总页数 17
原文格式 PDF
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中图分类人体生理学;
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专利

1. Cardiac sodium channels (hH1) are intrinsically more sensitive to block by lidocaine than are skeletal muscle (mu 1) channels. [J] . H B Nuss, G F Tomaselli, E Marbán The Journal of general physiology . 1995,第6期

机译：与骨骼肌（mu 1）通道相比，心脏钠通道（hH1）本质上对利多卡因的阻滞更为敏感。
2. Functional association of the beta 1 subunit with human cardiac (hH1) and rat skeletal muscle (mu 1) sodium channel alpha subunits expressed in Xenopus oocytes. [J] . H B Nuss, N Chiamvimonvat, M T Pérez-García, The Journal of general physiology . 1995,第6期

机译：β1亚基与非洲人爪蟾卵母细胞中表达的人类心脏（hH1）和大鼠骨骼肌（mu 1）钠通道α亚基的功能关联。
3. Functional association of the beta 1 subunit with human cardiac (hH1) and rat skeletal muscle (mu 1) sodium channel alpha subunits expressed in Xenopus oocytes. [J] . H B Nuss, N Chiamvimonvat, M T Pérez-García, The Journal of general physiology . 1995,第6期

机译：β1亚基与非洲人爪蟾卵母细胞中表达的人类心脏（hH1）和大鼠骨骼肌（mu 1）钠通道α亚基的功能关联。
4. THE EFFECT OF TRANSVERSE TUBULAR SODIUM CHANNELS ON ACTION POTENTIALS AND MEMBRANE CURRENTS IN SKELETAL MUSCLE [C] . Kaj-Age Henneberg 1995 IEEE engineering in medicine and biology 17th annual conference and 21st Canadian medical and biological engineering conference . 1997

机译：横贯管状钠通道对骨骼肌动作电位和膜电流的影响
5. mu-Conotoxins as modulators of electrical signaling in nerve and muscle: Molecular basis of sodium channel block and discrimination among closely related channels. [D] . McArthur, Jeffrey Robert. 2011

机译：mu-Conotoxins作为神经和肌肉中电信号的调节剂：钠通道阻滞的分子基础和密切相关的通道之间的区别。
6. Functional association of the beta 1 subunit with human cardiac (hH1) and rat skeletal muscle (mu 1) sodium channel alpha subunits expressed in Xenopus oocytes [O] . 1995

机译：β1亚基与非洲人爪蟾卵母细胞中表达的人类心脏（hH1）和大鼠骨骼肌（mu 1）钠通道α亚基的功能关联
7. Cardiac sodium channels (hH1) are intrinsically more sensitive to block by lidocaine than are skeletal muscle (mu 1) channels [O] . 1995

机译：与骨骼肌（mu 1）通道相比，心脏钠通道（hH1）本质上对利多卡因的阻滞更为敏感
8. Block of Single L-Type Ca2+ Channels in Skeletal Muscle Fibers by AminoglycosideAntibiotics [R] . Haws, C. M., Winegar, B. D., Lansman, J. B. 1996

机译：氨基糖苷类抗生素对骨骼肌纤维中单个L型Ca2 +通道的阻断

Cardiac sodium channels (hH1) are intrinsically more sensitive to block by lidocaine than are skeletal muscle (mu 1) channels

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