Cognitive Function and Calcium. Ca2+-dependent regulatory mechanism of circadian clock oscillation and its relevance to neuronal function

Abstract

Circadian clock generates a variety of biological rhythms such as sleep/wake cycles and blood hormone rhythms. The circadian clock also bolsters daily mental activities. In fact, abnormalities of the circadian rhythms are found in several neurological disorders. The circadian clock has two important functions: (i) a cell-autonomous oscillatory function and (ii) a phase-adjusting function that synchronizes the clock oscillation with environmental cycling conditions such as light/dark cycle. Behavioral rhythms are controlled by the central clock in hypothalamic suprachiasmatic nucleus (SCN). The central clock orchestrates peripheral clocks in the other tissues via neuronal connection and/or actions of humoral factors. The molecular mechanism of the cell-autonomous clock is based on transcriptional feedback regulation of clock genes by their encoded products. Ca2+ is essential for not only the light response of the clock but also the cell autonomous oscillation mechanism. This article provides an overview of recent progress in studies of Ca2+-dependent regulatory mechanism of the molecular clockwork.