Ca2+ signaling driving pacemaker activity in submucosal interstitial cells of Cajal in the colon

Abstract

AbstractInterstitial cells of Cajal (ICC) generate pacemaker activity responsible for phasic contractions in colonic segmentation and peristalsis. ICC along the submucosal border (ICC-SM) contributing to mixing and more complex patterns of colonic motility. We show the complex patterns of Ca2+ signaling in ICC-SM and the relationship between ICC-SM Ca2+ transients and activation of SMCs using optogenetic tools. ICC-SM displayed rhythmic firing of Ca2+ transients ∼15 cpm and paced adjacent SMCs. The majority of spontaneous activity occurred in regular Ca2+ transients clusters (CTCs) that propagated through the network. CTCs were organized and dependent upon Ca2+ entry through voltage-dependent Ca2+ conductances, L- and T-type Ca2+ channels. Removal of Ca2+ from the external solution abolished CTCs. Ca2+ release mechanisms reduced the duration and amplitude of Ca2+ transients but did not block CTCs. These data reveal how colonic pacemaker ICC-SM exhibit complex Ca2+ firing patterns and drive smooth muscle activity and overall colonic contractions.SynopsisHow Ca2+ signaling in colonic submucosal pacemaker cells couples to smooth muscle responses is unknown. This study shows how ICC modulate colonic motility via complex Ca2+ signaling and defines Ca2+ transients’ sources using optogenetic techniques.