胃窦间质细胞调节小鼠胃窦的基础膜电位

IF 4.4 2区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Sung Jin Hwang, MinKyung Kim, Amanda Jones, Naseer Basma, Salah A. Baker, Kenton M. Sanders, Sean M. Ward
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引用次数: 0

摘要

平滑肌细胞(SMC)、卡雅尔间质细胞(ICC)和血小板衍生生长因子受体α阳性细胞(PDGFRα+)在胃肠道(GI)肌肉组织内形成了一个完整的电合胞体,被称为 SIP 合胞体。胃体肌肉的免疫组化分析表明,c-KIT+/ANO1+ ICC-IM 和 PDGFRα+ 细胞在相同的解剖龛位中彼此紧密相连。我们使用细胞内微电极记录冠状肌束来描述肌肉内ICC和PDGFRα+细胞在调节胃肌膜电位中的作用。在输入阻抗比较大的肌条或肌片相对较高的肌束中,我们记录到了膜电位随机波动的持续放电,以前称为单位电位或自发瞬时去极化(STD)和自发瞬时超极化(STH)。我们推断,ICC 的标志性电导 ANO1 的拮抗剂应能阻断 STD。ANO1 的激活已被证明能产生自发瞬态内向电流(STIC),而 STIC 正是 STD 的基础。Ani9 能降低膜噪声并引起超极化,但这种药剂不能定量阻断膜电位的波动。阿帕明是小电导 Ca2+ 激活 K+ 通道(SK3)的拮抗剂,而 SK3 是 PDGFRα+ 细胞的特征电导。颠倒通道拮抗剂的顺序可逆转去极化和超极化的顺序。这些实验表明,ICC 和 PDGFRα+ 细胞分别对 STDs 和 STHs 持续放电,对 SIP 膜电位产生了调节作用,从而有效地调节了 SMC 的兴奋性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interstitial cells of the sip syncytium regulate basal membrane potential in murine gastric corpus

Smooth muscle cells (SMCs), Interstitial cells of Cajal (ICC) and Platelet-derived growth factor receptor α positive (PDGFRα+) cells form an integrated, electrical syncytium within the gastrointestinal (GI) muscular tissues known as the SIP syncytium. Immunohistochemical analysis of gastric corpus muscles showed that c-KIT+/ANO1+ ICC-IM and PDGFRα+ cells were closely apposed to one another in the same anatomical niches. We used intracellular microelectrode recording from corpus muscle bundles to characterize the roles of intramuscular ICC and PDGFRα+ cells in conditioning membrane potentials of gastric muscles. In muscle bundles, that have a relatively higher input impedance than larger muscle strips or sheets, we recorded an ongoing discharge of stochastic fluctuations in membrane potential, previously called unitary potentials or spontaneous transient depolarizations (STDs) and spontaneous transient hyperpolarizations (STHs). We reasoned that STDs should be blocked by antagonists of ANO1, the signature conductance of ICC. Activation of ANO1 has been shown to generate spontaneous transient inward currents (STICs), which are the basis for STDs. Ani9 reduced membrane noise and caused hyperpolarization, but this agent did not block the fluctuations in membrane potential quantitatively. Apamin, an antagonist of small conductance Ca2+-activated K+ channels (SK3), the signature conductance in PDGFRα+ cells, further reduced membrane noise and caused depolarization. Reversing the order of channel antagonists reversed the sequence of depolarization and hyperpolarization. These experiments show that the ongoing discharge of STDs and STHs by ICC and PDGFRα+ cells, respectively, exerts conditioning effects on membrane potentials in the SIP syncytium that would effectively regulate the excitability of SMCs.

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来源期刊
FASEB Journal
FASEB Journal 生物-生化与分子生物学
CiteScore
9.20
自引率
2.10%
发文量
6243
审稿时长
3 months
期刊介绍: The FASEB Journal publishes international, transdisciplinary research covering all fields of biology at every level of organization: atomic, molecular, cell, tissue, organ, organismic and population. While the journal strives to include research that cuts across the biological sciences, it also considers submissions that lie within one field, but may have implications for other fields as well. The journal seeks to publish basic and translational research, but also welcomes reports of pre-clinical and early clinical research. In addition to research, review, and hypothesis submissions, The FASEB Journal also seeks perspectives, commentaries, book reviews, and similar content related to the life sciences in its Up Front section.
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