Department of Veterinary Physiology and Pharmacology, Texas A&M University, College Station, TX, USA.
Department of Medical Pharmacology & Physiology, University of Missouri, Columbia, MO, USA.
J Physiol. 2024 Jul;602(14):3351-3373. doi: 10.1113/JP285459. Epub 2024 May 5.
Ca signalling plays a crucial role in determining lymphatic muscle cell excitability and contractility through its interaction with the Ca-activated Cl channel anoctamin 1 (ANO1). In contrast, the large-conductance (BK) Ca-activated K channel (KCa) and other KCa channels have prominent vasodilatory actions by hyperpolarizing vascular smooth muscle cells. Here, we assessed the expression and contribution of the KCa family to mouse and rat lymphatic collecting vessel contractile function. The BK channel was the only KCa channel consistently expressed in fluorescence-activated cell sorting-purified mouse lymphatic muscle cell lymphatic muscle cells. We used a pharmacological inhibitor of BK channels, iberiotoxin, and small-conductance Ca-activated K channels, apamin, to inhibit KCa channels acutely in ex vivo isobaric myography experiments and intracellular membrane potential recordings. In basal conditions, BK channel inhibition had little to no effect on either mouse inguinal-axillary lymphatic vessel (MIALV) or rat mesenteric lymphatic vessel contractions or action potentials (APs). We also tested BK channel inhibition under loss of ANO1 either by genetic ablation (Myh11CreERT-Ano1 fl/fl, Ano1ismKO) or by pharmacological inhibition with Ani9. In both Ano1ismKO MIALVs and Ani9-pretreated MIALVs, inhibition of BK channels increased contraction amplitude, increased peak AP and broadened the peak of the AP spike. In rat mesenteric lymphatic vessels, BK channel inhibition also abolished the characteristic post-spike notch, which was exaggerated with ANO1 inhibition, and significantly increased the peak potential and broadened the AP spike. We conclude that BK channels are present and functional on mouse and rat lymphatic muscle cells but are otherwise masked by the dominance of ANO1. KEY POINTS: Mouse and rat lymphatic muscle cells express functional BK channels. BK channels make little contribution to either rat or mouse lymphatic collecting vessel contractile function in basal conditions across a physiological pressure range. ANO1 limits the peak membrane potential achieved in the action potential and sets a plateau potential limiting the voltage-dependent activation of BK. BK channels are activated when ANO1 is absent or blocked and slightly impair contractile strength by reducing the peak membrane potential achieved in the action potential spike and accelerating the post-spike repolarization.
钙信号通过与钙激活氯离子通道 anoctamin 1(ANO1)相互作用,在决定淋巴管肌肉细胞兴奋性和收缩性方面发挥着关键作用。相比之下,大电导(BK)钙激活钾通道(KCa)和其他 KCa 通道通过超极化血管平滑肌细胞具有显著的血管舒张作用。在这里,我们评估了 KCa 家族在小鼠和大鼠淋巴管收集管收缩功能中的表达和贡献。BK 通道是唯一在荧光激活细胞分选纯化的小鼠淋巴管肌肉细胞中持续表达的 KCa 通道。我们使用 BK 通道的药理学抑制剂 iberiotoxin 和小电导钙激活钾通道 apamin 在离体等压肌描记实验和细胞内膜电位记录中急性抑制 KCa 通道。在基础条件下,BK 通道抑制对小鼠腹股沟-腋窝淋巴管(MIALV)或大鼠肠系膜淋巴管收缩或动作电位(AP)几乎没有影响。我们还在失去 ANO1 的情况下测试了 BK 通道抑制作用,方法是通过基因消融(Myh11CreERT-Ano1 fl/fl,Ano1ismKO)或用 Ani9 进行药理学抑制。在 Ano1ismKO MIALVs 和 Ani9 预处理的 MIALVs 中,BK 通道抑制增加了收缩幅度,增加了峰 AP 并拓宽了 AP 峰的尖峰。在大鼠肠系膜淋巴管中,BK 通道抑制也消除了特征性的尖峰后切迹,该切迹在 ANO1 抑制时被夸大,并且显著增加了峰电位并拓宽了 AP 尖峰。我们得出的结论是,BK 通道存在于小鼠和大鼠淋巴管肌肉细胞中并且具有功能,但被 ANO1 的主导地位所掩盖。关键点:小鼠和大鼠淋巴管肌肉细胞表达功能性 BK 通道。在基础条件下,在生理压力范围内,BK 通道对大鼠或小鼠淋巴管收集管的收缩功能几乎没有贡献。ANO1 限制动作电位中达到的峰值膜电位,并设置平台电位,限制 BK 的电压依赖性激活。当 ANO1 不存在或被阻断时,BK 通道被激活,并通过降低动作电位尖峰中达到的峰值膜电位和加速尖峰后复极化来略微削弱收缩强度。