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Capacitative Ca~(2+) entry is involved in ACh--induced distal colon smooth muscle contraction in rats

Kong Dehu, Zhou Hua, Song Jie, Ke Daoping, Hu Jinlan, Li Zhongwen, Ma Rong

Laboratory of Neurophysiology, Department of Physiology, Anhui Medical University.Hefei 230032,Anhui

Abstract

Contraction of smooth muscle cells is triggered by an increase in cytosolic Ca~(2+) upon agonist stimulation. Ca~(2+) influx across the plasma membrane constitutes a major component of the agonist-induced response in smooth muscle cells. Traditionally, voltageoperated Ca~(2+) channel （VOCC） is considered as the channel mediating the Ca~(2+) entry. However, this view has been challenged by recent discoveries, which demonstrated that other types of ion channels, such as store-operated and/or receptor-operated Ca~(2+) channels （SOCC and/or ROCC）, also participate in Ca~(2+) response induced by agonists in smooth muscle cells. SOCC is defined as the channel activated in response to the depletion of the internal Ca~(2+) stores, an event secondary to G protein coupled receptor or receptor tyrosine kinase stimulation. The Ca~(2+) flow mediated by SOCC is termed as capacitative Ca~(2+) entry （CCE）. Previous study from other group has demonstrated that VOCC played a predominant role in ACh-induced contraction of distal colon smooth muscle in guinea pig. However, whether SOCC participates in the agonist-induced contractile response in this particular tissue is unknown. The present study was performed to investigate the role of CCE in ACh-induced mechanical activity of distal colon smooth muscle in rats. The contractile function of the smooth muscle was assessed by measuring isometric force of isolated rat distal colon rings. We showed that both high extracellular K~(+) （40 mmol/L） and ACh （5 #mu#mmol/L） evoked striking contraction of the smooth muscle. The contractile responses were almost abolished by removal of extracellular Ca~(2+) with ethylene glycol-bis（2-aminoethylether）-N,N,N',N' tetraacetic acid （EGTA）,suggesting a critical contribution of extracellular source of Ca~(2+) to the contraction. Verapamil （5#mu#mol/L）, an L-type VOCC blocker, significantly attenuated, but didn't completely eliminate the high K~(+)- and ACh-induced contraction （74% and 41% for high K~(+) and ACh, respectively）, indicating that additional channels might be involved in the contractile mechanism. Furthermore, ACh only induced transient contractions in the absence of extracellular Ca~(2+). Readmission of Ca~(2+) into the extracellular compartment resulted in a significant and sustained increase in the tension of the smooth muscle. This response was not affected by verapamil （5 #mu#mol/L） and Cd~(2+) （5#mu#mol/ L）, both of which efficiently block VOCC at the doses. However, La~(3+), a known inhibitor of SOCC, significantly suppressed the Ca~(2+) readdition-induced contraction in a dose-dependent manner. On the basis of these results, we conclude that contraction of smooth muscle in the distal colon is regulated by multiple Ca~(2+) channels. In addition to VOCC-mediated Ca~(2+) influx, SOCC-mediated CCE participates in agonist-induced contractile response of distal colon smooth muscle in rats.

Key words: capacitative Ca~(2+) entry;store-operated Ca~(2+) channel;ACh;Atropine;lanthanum;smooth muscle;Colon;Rat

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Citing This Article：

Kong Dehu, Zhou Hua, Song Jie, Ke Daoping, Hu Jinlan, Li Zhongwen, Ma Rong. Capacitative Ca~(2+) entry is involved in ACh--induced distal colon smooth muscle contraction in rats. Acta Physiol Sin 2006; 58 (2): (in Chinese with English abstract).