Journal
CLOCKS & SLEEP
Volume 3, Issue 3, Pages 351-365Publisher
MDPI
DOI: 10.3390/clockssleep3030022
Keywords
moricizine; circadian clock; period length; sodium channel blocker; heart arrhythmia; chronotherapy
Categories
Funding
- Welch Foundation [AU-1971-20180324, AU-1731-20190330]
- NIH/NIA [R56AG063746, R01AG065984]
- NIH/NIGMS [R01GM114424]
- Will Erwin Headache Research Foundation
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The study revealed that the anti-arrhythmic drug moricizine can lengthen the circadian period, leading to changes in cardiac gene expression and cellular oscillators.
Dysregulated circadian functions contribute to various diseases, including cardiovascular disease. Much progress has been made on chronotherapeutic applications of drugs against cardiovascular disease (CVD); however, the direct effects of various medications on the circadian system are not well characterized. We previously conducted high-throughput chemical screening for clock modulators and identified an off-patent anti-arrhythmic drug, moricizine, as a clock-period lengthening compound. In Per2:LucSV reporter fibroblast cells, we showed that under both dexamethasone and forskolin synchronization, moricizine was able to increase the circadian period length, with greater effects seen with the former. Titration studies revealed a dose-dependent effect of moricizine to lengthen the period. In contrast, flecainide, another Class I anti-arrhythmic, showed no effects on circadian reporter rhythms. Real-time qPCR analysis in fibroblast cells treated with moricizine revealed significant circadian time- and/or treatment-dependent expression changes in core clock genes, consistent with the above period-lengthening effects. Several clock-controlled cardiac channel genes also displayed altered expression patterns. Using tissue explant culture, we showed that moricizine was able to significantly prolong the period length of circadian reporter rhythms in atrial ex vivo cultures. Using wild-type C57BL/6J mice, moricizine treatment was found to promote sleep, alter circadian gene expression in the heart, and show a slight trend of increasing free-running periods. Together, these observations demonstrate novel clock-modulating activities of moricizine, particularly the period-lengthening effects on cellular oscillators, which may have clinical relevance against heart diseases.
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