Loose-patch clamp analysis applied to voltage-gated ionic currents following pharmacological ryanodine receptor modulation in murine hippocampal cornu ammonis-1 pyramidal neurons

Federico Bertagna, Shiraz Ahmad, Rebecca Lewis, S. Ravi P. Silva, Johnjoe McFadden, Christopher L.-H. Huang, Hugh R. Matthews, K. Jeevaratnam
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Abstract

The loose-patch clamp technique was first developed and used in native amphibian skeletal muscle (SkM), offering useful features complementing conventional sharp micro-electrode, gap, or conventional patch voltage clamping. It demonstrated the feedback effects of pharmacological modification of ryanodine receptor (RyR)-mediated Ca2+ release on the Na+ channel (Nav1.4) currents, initiating excitation–contraction coupling in native murine SkM. The effects of the further RyR and Ca2+-ATPase (SERCA) antagonists, dantrolene and cyclopiazonic acid (CPA), additionally implicated background tubular-sarcoplasmic Ca2+ domains in these actions.We extend the loose-patch clamp approach to ion current measurements in murine hippocampal brain slice cornu ammonis-1 (CA1) pyramidal neurons. We explored the effects on Na+ currents of pharmacologically manipulating RyR and SERCA-mediated intracellular store Ca2+ release and reuptake. We adopted protocols previously applied to native skeletal muscle. These demonstrated Ca2+-mediated feedback effects on the Na+ channel function.Experiments applying depolarizing 15 ms duration loose-patch clamp steps to test voltages ranging from −40 to 120 mV positive to the resting membrane potential demonstrated that 0.5 mM caffeine decreased inward current amplitudes, agreeing with the previous SkM findings. It also decreased transient but not prolonged outward current amplitudes. However, 2 mM caffeine affected neither inward nor transient outward but increased prolonged outward currents, in contrast to its increasing inward currents in SkM. Furthermore, similarly and in contrast to previous SkM findings, both dantrolene (10 μM) and CPA (1 μM) pre-administration left both inward and outward currents unchanged. Nevertheless, dantrolene pretreatment still abrogated the effects of subsequent 0.5- and 2-mM caffeine challenges on both inward and outward currents. Finally, CPA abrogated the effects of 0.5 mM caffeine on both inward and outward currents, but with 2 mM caffeine, inward and transient outward currents were unchanged, but sustained outward currents increased.We, thus, extend loose-patch clamping to establish pharmacological properties of murine CA1 pyramidal neurons and their similarities and contrasts with SkM. Here, evoked though not background Ca2+-store release influenced Nav and Kv excitation, consistent with smaller contributions of background store Ca2+ release to resting [Ca2+]. This potential non-canonical mechanism could modulate neuronal membrane excitability or cellular firing rates.
对小鼠海马胼胝体-1 锥体神经元中雷诺丁受体药理调节后的电压门控离子电流进行松弛斑块钳分析
松贴片钳(loose-patch clamp)技术是首次在原生两栖动物骨骼肌(SkM)中开发和使用的,它具有补充传统的尖锐微电极、间隙或传统贴片电压钳的有用功能。它证明了药物修饰雷诺丁受体(RyR)介导的 Ca2+ 释放对 Na+ 通道(Nav1.4)电流的反馈作用,从而启动了原生鼠骨骼肌的兴奋-收缩耦合。此外,RyR 和 Ca2+-ATP 酶(SERCA)拮抗剂丹曲林和环噻唑啉酸(CPA)的作用也与这些作用中的背景小管-肌浆 Ca2+ 域有关。我们探讨了药理操纵 RyR 和 SERCA 介导的细胞内储存 Ca2+ 释放和再摄取对 Na+ 电流的影响。我们采用了以前应用于本地骨骼肌的方案。实验采用去极化 15 毫秒持续时间的松弛钳夹步骤,测试电压范围为静息膜电位正值的 -40 至 120 毫伏,结果表明 0.5 毫摩尔咖啡因可降低内向电流振幅,这与之前 SkM 的研究结果一致。它还降低了瞬时外向电流振幅,但没有降低长期外向电流振幅。然而,2 毫摩尔咖啡因既不影响内向电流,也不影响瞬时外向电流,但却增加了延长的外向电流,这与咖啡因增加 SkM 的内向电流形成鲜明对比。此外,与之前的颅内膜研究结果类似,丹曲林(10 μM)和 CPA(1 μM)的预处理也使内向和外向电流保持不变。尽管如此,丹曲林预处理仍可减弱随后的 0.5 毫摩尔和 2 毫摩尔咖啡因挑战对内向和外向电流的影响。最后,CPA 消减了 0.5 mM 咖啡因对内向电流和外向电流的影响,但在 2 mM 咖啡因的作用下,内向电流和瞬时外向电流没有变化,但持续外向电流增加了。在这里,诱发的而非背景 Ca2+ 存储释放影响了 Nav 和 Kv 的兴奋,这与背景存储 Ca2+ 释放对静息[Ca2+]的贡献较小一致。这种潜在的非经典机制可能会调节神经元膜兴奋性或细胞发射率。
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