In most species, self sustained molecular clocks regulate 24-h rhythms of behavior and physiology. In mammals, a circadian pacemaker residing in the hypothalamic suprachiasmatic nucleus (SCN) receives photic signals from the retina and synchronizes subordinate clocks in non-SCN tissues. The emergence of circadian rhythmicity during development has been extensively studied for many years. In mice, neuronal development in the presumptive SCN region of the embryonic hypothalamus occurs on days 12-15 of gestation lntra-SCN circuits differentiate during the following days and retinal projections reach the SCN, and thus mediate photic entrainment, only after birth. In contrast the genetic components of the clock gene machinery are expressed much earlier and during rnidgestation SCN explants and isolated neurons are capable of generating molecular oscillations in culture. In ovo metabolic rhythms in the SCN, however, are observed not earlier than the 19th day of rat gestation, and rhythmic expression of clock genes is hardly detectable until after birth. Together these data indicate that cellular coupling and, thus, tissue wide synchronization of single cell rhythms, may only develop very late during embryogenesis. In this mini review we describe the developmental origin of the SCN structure and summarize our current knowledge about the functional Initiation and entrainment of the circadian pacemaker during embryonic development.

• 出版日期2014-12-1