Physiologisches Institut, Universität Würzburg, Würzburg, Germany.
Neurogastroenterol Motil. 2018 Jun;30(6):e13300. doi: 10.1111/nmo.13300. Epub 2018 Jan 29.
Regulation of gastrointestinal motility involves excitatory and inhibitory neurotransmission. Nitric oxide (NO), the major inhibitory neurotransmitter, acts via its receptor NO-sensitive guanylyl cyclase (NO-GC). In the GI tract, NO-GC is expressed in several cell types such as smooth muscle cells (SMC) and interstitial cells of Cajal (ICC). Using cell-specific knockout mice, we have previously shown that NO-GC modulates spontaneous contractions in colonic longitudinal smooth muscle. However, its detailed role in the colonic circular smooth muscle is still unclear.
Myography was performed to evaluate spontaneous contractions in rings of proximal colon (2.5 mm) from global (GCKO) and cell-specific knockout mice for NO-GC. Immunohistochemistry and in situ hybridization were used to specify NO-GC expression.
Colonic circular smooth muscle showed three different contraction patterns: high-frequency ripples, slow phasic contractions, and large contractions. Ripples formed independently of NO-GC. Slow phasic contractions occurred intermittently in WT, SMC-GCKO, and ICC-GCKO tissue, whereas they were more prominent and prolonged in GCKO and SMC/ICC-GCKO tissue. Tetrodotoxin and the NO-GC inhibitor ODQ transformed slow phasic contractions of WT and single cell-specific knockout into GCKO-like contractions. ODQ increased the frequency of large contractions in WT and ICC-GCKO colon but not in GCKO, SMC-GCKO, and SMC/ICC-GCKO preparations. Tetrodotoxin and hexamethonium abolished large contractions.
We conclude that short rings of murine colon can be effectively used to record spontaneous contractions. Although NO-GC in SMC determines smooth muscle tone, concerted action of NO-GC in both SMC and ICC modulates slow phasic contractions and large contractions.
胃肠道运动的调节涉及兴奋性和抑制性神经传递。一氧化氮(NO)作为主要的抑制性神经递质,通过其受体 NO-敏感鸟苷酸环化酶(NO-GC)发挥作用。在胃肠道中,NO-GC 表达于几种细胞类型,如平滑肌细胞(SMC)和 Cajal 间质细胞(ICC)。通过细胞特异性敲除小鼠,我们之前已经表明,NO-GC 调节结肠纵向平滑肌的自发性收缩。然而,其在结肠环形平滑肌中的详细作用仍不清楚。
使用整体(GCKO)和细胞特异性 NO-GC 敲除小鼠的近端结肠(2.5mm)环进行肌电图检查,以评估自发性收缩。免疫组织化学和原位杂交用于特异性表达 NO-GC。
结肠环形平滑肌表现出三种不同的收缩模式:高频波、缓慢相收缩和大收缩。波形成独立于 NO-GC。在 WT、SMC-GCKO 和 ICC-GCKO 组织中,缓慢相收缩间歇性发生,而在 GCKO 和 SMC/ICC-GCKO 组织中,它们更为明显和延长。河豚毒素和 NO-GC 抑制剂 ODQ 将 WT 和单细胞特异性敲除的缓慢相收缩转化为 GCKO 样收缩。ODQ 增加了 WT 和 ICC-GCKO 结肠中大收缩的频率,但在 GCKO、SMC-GCKO 和 SMC/ICC-GCKO 制剂中则不然。河豚毒素和六烃季铵完全消除了大收缩。
我们得出结论,小鼠结肠的短环可有效用于记录自发性收缩。尽管 SMC 中的 NO-GC 决定平滑肌张力,但 SMC 和 ICC 中的 NO-GC 协同作用调节缓慢相收缩和大收缩。
