Department of Neuroscience, Cell Biology and Physiology, Wright State University, Dayton, OH.
Department of Biological Sciences, Wright State University, Dayton, OH.
J Gen Physiol. 2020 May 4;152(5). doi: 10.1085/jgp.201912526.
Mice lacking functional large-conductance voltage- and Ca2+-activated K+ channels (BK channels) are viable but have motor deficits including ataxia and weakness. The cause of weakness is unknown. In this study, we discovered, in vivo, that skeletal muscle in mice lacking BK channels (BK-/-) was weak in response to nerve stimulation but not to direct muscle stimulation, suggesting a failure of neuromuscular transmission. Voltage-clamp studies of the BK-/- neuromuscular junction (NMJ) revealed a reduction in evoked endplate current amplitude and the frequency of spontaneous vesicle release compared with WT littermates. Responses to 50-Hz stimulation indicated a reduced probability of vesicle release in BK-/- mice, suggestive of lower presynaptic Ca2+ entry. Pharmacological block of BK channels in WT NMJs did not affect NMJ function, surprisingly suggesting that the reduced vesicle release in BK-/- NMJs was not due to loss of BK channel-mediated K+ current. Possible explanations for our data include an effect of BK channels on development of the NMJ, a role for BK channels in regulating presynaptic Ca2+ current or the effectiveness of Ca2+ in triggering release. Consistent with reduced Ca2+ entry or effectiveness of Ca2+ in triggering release, use of 3,4-diaminopyridine to widen action potentials normalized evoked release in BK-/- mice to WT levels. Intraperitoneal application of 3,4-diaminopyridine fully restored in vivo nerve-stimulated muscle force in BK-/- mice. Our work demonstrates that mice lacking BK channels have weakness due to a defect in vesicle release at the NMJ.
缺乏功能性大电导电压和 Ca2+-激活的钾通道(BK 通道)的小鼠是有活力的,但存在运动缺陷,包括共济失调和虚弱。其虚弱的原因尚不清楚。在这项研究中,我们在体内发现,缺乏 BK 通道的小鼠(BK-/-)的骨骼肌对神经刺激的反应较弱,但对直接肌肉刺激的反应正常,这表明神经肌肉传递失败。对 BK-/-神经肌肉接头(NMJ)的电压钳研究表明,与 WT 同窝仔相比,诱发的终板电流幅度和自发囊泡释放的频率降低。对 50-Hz 刺激的反应表明,BK-/-小鼠中囊泡释放的概率降低,提示突触前 Ca2+内流减少。在 WT NMJ 中阻断 BK 通道的药理学方法并未影响 NMJ 功能,这令人惊讶地表明,BK-/- NMJ 中囊泡释放减少不是由于 BK 通道介导的 K+电流的丧失。我们数据的可能解释包括 BK 通道对 NMJ 发育的影响、BK 通道在调节突触前 Ca2+电流或 Ca2+触发释放的有效性中的作用。与 Ca2+内流减少或 Ca2+触发释放的有效性一致,使用 3,4-二氨基吡啶(3,4-diaminopyridine)加宽动作电位可使 BK-/-小鼠的诱发释放正常化至 WT 水平。3,4-二氨基吡啶的腹腔内应用完全恢复了 BK-/-小鼠体内神经刺激肌肉力量。我们的工作表明,缺乏 BK 通道的小鼠由于 NMJ 处囊泡释放缺陷而出现虚弱。
