Physiologisches Institut I, Universität Würzburg, Würzburg, Germany.
Institut für Anatomie, Zentrum für medizinische Struktur- und Zellbiologie, Universität zu Lübeck, Lübeck, Germany.
Gastroenterology. 2013 Jul;145(1):188-196. doi: 10.1053/j.gastro.2013.03.042. Epub 2013 Mar 22.
BACKGROUND & AIMS: It is not clear how nitric oxide (NO) released from enteric neurons relaxes gastrointestinal (GI) smooth muscle. In analogy to the vascular system, NO might directly induce relaxation of smooth muscle cells (SMCs) by acting on its receptor, NO-sensitive guanylyl cyclase (NO-GC). Alternatively, intermediate cells, such as the interstitial cells of Cajal (ICCs), might detect nitrergic signals to indirectly regulate smooth muscle tone, and thereby regulate the motor function of the GI tract. We investigated the role of ICCs and SMCs in nitrergic relaxation using mice with cell-specific disruption of the gene encoding the β1 subunit of NO-GC (GUCY1B3).
We created mice that lack NO-GC specifically in SMCs (SM-guanylyl cyclase knockout [GCKO]), ICCs (ICC-GCKO), or both (SM/ICC-GCKO). We investigated the effects of exogenous and endogenous NO on murine fundus using isometric force studies. Total gut transit time was measured to monitor the functional consequences of NO-GC deletion on GI motility in vivo.
NO-GC is expressed in ICC and SMC. Deletion of the NO receptor from SMCs incompletely reduced NO-induced fundus relaxation, which was hardly affected after ICC-specific deletion. Gut transit time did not change in SM-GCKO or ICC-GCKO mice compared with control mice. However, nitrergic relaxation was not observed in SM/ICC-GCKO mice, which had increased gut transit time compared with controls.
In mice, NO-GC is the only NO receptor to relax the fundus; deletion of NO-GC from the combination of SMCs and ICCs blocks nitrergic signaling. Therefore, ICCs and SMCs jointly mediate the relaxant effect of enteric NO.
肠道神经元释放的一氧化氮(NO)如何使胃肠道(GI)平滑肌松弛尚不清楚。与血管系统类似,NO 可能通过作用于其受体,即一氧化氮敏感型鸟苷酸环化酶(NO-GC),直接诱导平滑肌细胞(SMCs)松弛。或者,间充质细胞,如 Cajal 间质细胞(ICCs),可能会检测到 nitrergic 信号,从而间接调节平滑肌张力,从而调节 GI 道的运动功能。我们使用基因编码的β1 亚单位的细胞特异性缺失的小鼠来研究 ICCs 和 SMCs 在 nitrergic 松弛中的作用NO-GC(GUCY1B3)。
我们创建了特异性缺失 SMC 中 NO-GC(SM-鸟苷酸环化酶敲除 [GCKO])、ICC(ICC-GCKO)或两者均缺失的小鼠(SM/ICC-GCKO)。我们使用等长力研究来研究外源性和内源性 NO 对鼠胃底的影响。测量总肠道通过时间以监测 NO-GC 缺失对体内 GI 运动的功能后果。
NO-GC 在 ICC 和 SMC 中表达。SMC 中 NO 受体的缺失不完全减少了 NO 诱导的胃底松弛,而 ICC 特异性缺失后几乎没有影响。与对照小鼠相比,SM-GCKO 或 ICC-GCKO 小鼠的肠道通过时间没有变化。然而,在 SM/ICC-GCKO 小鼠中没有观察到 nitrergic 松弛,与对照组相比,其肠道通过时间增加。
在小鼠中,NO-GC 是唯一能松弛胃底的 NO 受体;SMC 和 ICC 中 NO-GC 的缺失阻断了 nitrergic 信号。因此,ICC 和 SMC 共同介导肠道 NO 的松弛作用。
