Depolarization produced by sodium removal in the circular muscle of the guinea-pig stomach.
AUTOR(ES)
Sakamoto, Y
RESUMO
1. Reducing the Na concentration to less than 20 mM depolarized the circular muscle of the guinea-pig stomach and contracture developed. The rate of depolarization varied between preparations. In some, all electrical activity disappeared within 2-3 min in Na-free solution, accompanied by depolarization, but in other preparations a sinusoidal rhythmic activity remained for various lengths of time up to 10 min. 2. When Ca was removed after the depolarization in Na-free solution was fully developed, the membrane partly repolarized and the contracture was abolished. Addition of 2 mM-Mn in the presence of Ca had the same effect. 3. After complete block of electrical activity in Ca-free and Na-free solution, readmission of only Ca (2.5-50 mM) produced sinusoidal rhythmic activity. This activity, observed in the absence of Na, was abolished when the membrane was hyperpolarized by applying inward current. 4. The membrane depolarized in Na-free solution was repolarized by readmission of only 5 mM-Na. This repolarization was greater and faster when the exposure to Na-free solution was prolonged. 5. The possibility was considered that an electrogenic Na-Ca exchange may be involved in the generation of the first component of the slow wave, and that removal of Na blocked the repolarizing phase of this component. In the absence of Na, Ca can evoke rhythmic activity and the underlying mechanism may be the same as that of the second component of slow wave, i.e. an increase in Ca conductance.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1251478Documentos Relacionados
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