Department of Physiology and Cell Biology, University of Nevada School of Medicine, Reno, NV 89557, USA.
J Physiol. 2010 Nov 15;588(Pt 22):4453-74. doi: 10.1113/jphysiol.2010.196824. Epub 2010 Sep 27.
Colonic migrating motor complexes (CMMCs) are neurally mediated, cyclical contractile and electrical events, which typically propagate along the colon every 2-3 min in the mouse. We examined the interactions between myenteric neurons, interstitial cells of Cajal in the myenteric region (ICC-MY) and smooth muscle cells during CMMCs using Ca(2+) imaging. CMMCs occurred spontaneously or were evoked by stimulating the mucosa locally, or by brushing it at either end of the colon. Between CMMCs, most ICC-MY were often quiescent; their lack of activity was correlated with ongoing Ca(2+) transients in varicosities on the axons of presumably inhibitory motor neurons that were on or surrounded ICC-MY. Ca(2+) transients in other varicosities initiated intracellular Ca(2+) waves in adjacent ICC-MY, which were blocked by atropine, suggesting they were on the axons of excitatory motor neurons. Following TTX (1 μM), or blockade of inhibitory neurotransmission with N(ω)-nitro-L-arginine (L-NA, a NO synthesis inhibitor, 10 μM) and MRS 2500 (a P2Y(1) antagonist, 1 μM), ongoing spark/puff like activity and rhythmic intracellular Ca(2+) waves (38.1 ± 2.9 cycles min(-1)) were observed, yet this activity was uncoupled, even between ICC-MY in close apposition. During spontaneous or evoked CMMCs there was an increase in the frequency (62.9 ± 1.4 cycles min(-1)) and amplitude of Ca(2+) transients in ICC-MY and muscle, which often had synchronized activity. At the same time, activity in varicosites along excitatory and inhibitory motor nerve fibres increased and decreased respectively, leading to an overall excitation of ICC-MY. Atropine (1 μM) reduced the evoked responses in ICC-MY, and subsequent addition of an NK1 antagonist (RP 67580, 500 nM) completely blocked the responses to stimulation, as did applying these drugs in reverse order. An NKII antagonist (MEN 10,376, 500 nM) had no effect on the evoked responses in ICC-MY. Following TTX application, carbachol (1 μM), substance P (1 μM) and an NKI agonist (GR73632, 100 nM) produced the fast oscillations superimposed on a slow increase in Ca(2+) in ICC-MY, whereas SNP (an NO donor, 10 μM) abolished all activity in ICC-MY. In conclusion, ICC-MY, which are under tonic inhibition, are pacemakers whose activity can be synchronized by excitatory nerves to couple the longitudinal and circular muscles during the CMMC. ICC-MY receive excitatory input from motor neurons that release acetylcholine and tachykinins acting on muscarinic and NK1 receptors, respectively.
结肠移行性运动复合波(CMMC)是一种神经介导的周期性收缩和电活动,通常在小鼠中每 2-3 分钟沿结肠传播一次。我们使用 Ca(2+)成像技术研究了 CMMC 期间肠神经丛神经元、肠肌间 Cajal 细胞(ICC-MY)和平滑肌细胞之间的相互作用。CMMC 可自发发生,也可通过局部刺激黏膜或在结肠两端刷洗来诱发。在 CMMC 之间,大多数 ICC-MY 通常处于静止状态;它们的活动缺失与可能抑制运动神经元轴突上的持续 Ca(2+)瞬变相关,这些神经元位于或围绕 ICC-MY。其他轴突上的 Ca(2+)瞬变在相邻的 ICC-MY 中引发细胞内 Ca(2+)波,该波被阿托品阻断,提示它们位于兴奋运动神经元的轴突上。TTX(1 μM)或使用 N(ω)-硝基-L-精氨酸(L-NA,一氧化氮合成抑制剂,10 μM)和 MRS 2500(P2Y(1)拮抗剂,1 μM)阻断抑制性神经递质传递后,观察到持续的火花/喷溅样活动和节律性细胞内 Ca(2+)波(38.1±2.9 个周期/分钟),但这种活动是解耦的,即使在紧密相邻的 ICC-MY 之间也是如此。在自发性或诱发的 CMMC 期间,ICC-MY 和肌肉中的 Ca(2+)瞬变频率(62.9±1.4 个周期/分钟)和幅度增加,通常具有同步活动。同时,兴奋性和抑制性运动神经纤维上的轴突泡的活动增加和减少,导致 ICC-MY 的整体兴奋。阿托品(1 μM)降低了 ICC-MY 中的诱发反应,随后加入 NK1 拮抗剂(RP 67580,500 nM)完全阻断了对刺激的反应,反之亦然。NKII 拮抗剂(MEN 10,376,500 nM)对 ICC-MY 中的诱发反应没有影响。TTX 应用后,乙酰胆碱(1 μM)、P 物质(1 μM)和 NKI 激动剂(GR73632,100 nM)在 ICC-MY 中产生叠加在 Ca(2+)缓慢增加上的快速振荡,而 SNP(一氧化氮供体,10 μM)则使 ICC-MY 中的所有活动消失。总之,受紧张性抑制作用的 ICC-MY 是起搏器,其活动可以通过兴奋性神经同步化,在 CMMC 期间将纵行和环形肌肉耦合。ICC-MY 从释放乙酰胆碱和速激肽的运动神经元接收兴奋性输入,分别作用于毒蕈碱和 NK1 受体。
