Author:
Namekata Iyuki,Jitsukata Kento,Fukuda Ayumi,Odaka Ryosuke,Hamaguchi Shogo,Tanaka Hikaru
Abstract
Intracellular Ca2+-mediated mechanisms for pacemaker depolarization were studied in sinus node tissue preparations from mice and guinea pigs. Microelectrode recordings revealed that the sinus node of the mouse, which had a higher beating rate, had a steeper slope of the pacemaker depolarization than that of the guinea pig. BAPTA and ryanodine, agents that interfere with intracellular Ca2+, significantly decreased the slope of the pacemaker depolarization in both species. In contrast, SEA0400, a specific inhibitor of the Na+-Ca2+ exchanger (NCX), as well as change to low Na+ extracellular solution, significantly decreased the slope in the mouse, but not in the guinea pig. Niflumic acid, a blocker of the Ca2+ activated Cl− channel, decreased the slope in both species. Confocal microscopy revealed the presence of spontaneous Ca2+ oscillations during the interval between Ca2+ transients; such phenomenon was more pronounced in the mouse than in the guinea pig. Thus, although intracellular Ca2+-mediated mechanisms were involved in the pacemaker depolarization of the sinus node in both species, the NCX current was involved in the mouse but not in the guinea pig.
Subject
Molecular Biology,Biochemistry
Cited by
3 articles.
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