Changes in interstitial cells and gastric excitability in a mouse model of sleeve gastrectomy

Gastrointestinal (GI) organs display spontaneous, non‐neurogenic electrical, and mechanical rhythmicity that underlies fundamental motility patterns, such as peristalsis and segmentation. Electrical rhythmicity (aka slow waves) results from pacemaker activity generated by interstitial cells of Cajal (ICC). ICC express a unique set of ionic conductances and Ca2+ handling mechanisms that generate and actively propagate slow waves. GI smooth muscle cells lack these conductances. Slow waves propagate actively within ICC networks and conduct electrotonically to smooth muscle cells via gap junctions. Slow waves depolarize smooth muscle cells and activate voltage‐dependent Ca2+ channels (predominantly CaV1.2), causing Ca2+ influx and excitation–contraction coupling. The main conductances responsible for pacemaker activity in ICC are ANO1, a Ca2+‐activated Cl− conductance, and CaV3.2. The pacemaker cycle, as currently understood, begins with spontaneous, localized Ca2+ release events in ICC that activate spontaneous transient inward currents due to activation of ANO1 channels. Depolarization activates CaV3.2 channels, causing the upstroke depolarization phase of slow waves. The upstroke is transient and followed by a long‐duration plateau phase that can last for several seconds. The plateau phase results from Ca2+‐induced Ca2+ release and a temporal cluster of localized Ca2+ transients in ICC that sustains activation of ANO1 channels and clamps membrane potential near the equilibrium potential for Cl− ions. The plateau phase ends, and repolarization occurs, when Ca2+ stores are depleted, Ca2+ release ceases and ANO1 channels deactivate. This review summarizes key mechanisms responsible for electrical rhythmicity in gastrointestinal organs. image

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Changes in interstitial cells and gastric excitability in a mouse model of sleeve gastrectomy

Cited by 2 publications

References 54 publications

Is the Quantification of Interstitial Cells of Cajal in Gastric Biopsy Samples in Patients With Gastroparesis Ready for Prime Time?

Is the Quantification of Interstitial Cells of Cajal in Gastric Biopsy Samples in Patients With Gastroparesis Ready for Prime Time?

Interstitial cells of Cajal – pacemakers of the gastrointestinal tract

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