Circadian regulation of the immune-hematopoietic system

Abstract

Earth’s rotation generates the basic circadian rhythm of day and night to which all living organisms must adapt to survive. In mammals, this happens thanks to a central clock located in the suprachiasmatic nucleus (SCN) of the hypothalamus and to peripheral clock genes at the cellular level. The main environmental cue capable of synchronizing such clocks is light sensed by retinal ganglion cells signaling through a complex nervous pathway to the pineal gland which ultimately regulates melatonin synthesis that occurs during the night, darkness hours in all mammals. The central clock synchronized by melatonin drives the circadian oscillation of the sympathetic nervous system (SNS) adrenergic activity which in turn controls glucocorticoid production in the adrenal glands. These oscillations are integrated with peripheral cellular clocks by still not completely understood mechanisms and drive the homeostatic control of activity-rest (sleep) cycles, cardiovascular activity, body temperature, and immune-hematopoietic functions. The neuronal and hormonal mechanisms governing the circadian oscillation of hematopoiesis and immunity will be addressed in this review focusing on those offering therapeutic perspectives.