Abstract
Mood disorders negatively impact the lives of hundreds of millions of individuals worldwide every year, yet the precise molecular mechanisms by which they manifest remain elusive. Circadian dysregulation is one avenue by which mood disorders are thought to arise. SOX2 is a transcription factor that is highly expressed in the murine suprachiasmatic nucleus (SCN), the circadian master clock, and has been recently found to be an important regulator of Per2, a core component of the molecular clock. Genetic ablation of the Sox2 gene in GABAergic neurons selectively impacts SCN neurons, as they are one of very few, if not the only, GABAergic populations that express Sox2. Here, we show that GABAergic-restricted ablation of Sox2 results in anxio-depressive-like phenotypes in mice as observed in the elevated plus maze, forced swim test, tail suspension test, and sucrose preference test. We further observe a reduction in basal and/or forced swim-induced c-Fos expression, a marker of neuronal activation, in the nucleus incertus, arcuate nucleus, and dentate gyrus of Sox2 conditional knockout (cKO) mice. Given the restricted disruption of SOX2 expression in the SCN of Sox2 cKO mice, we propose that their mood-associated phenotypes are the consequence of a dysregulated central clock that is unable to communicate appropriately timed signals to other brain nuclei that regulate affective behaviors.
Highlights
Mood disorders, including major depression and anxiety disorders, affect an estimated 10% to 20% of individuals globally and range from temporary episodes to incapacitating conditions that chronically impact lives [1,2]
There was no significant change in the number of c-Fos-IR cells in the dentate gyrus (DG) following forced swim in either control or Sox2 conditional knockout (cKO) mice (Figure 5e,f)
Our data suggest that loss of SOX2 expression in the suprachiasmatic nucleus (SCN) reduces neuronal activation in the nucleus incertus (NI), arcuate nucleus (ARC), and DG under basal and/or stressful conditions
Summary
Mood disorders, including major depression and anxiety disorders, affect an estimated 10% to 20% of individuals globally and range from temporary episodes to incapacitating conditions that chronically impact lives [1,2]. Robust circadian rhythms confer an evolutionary advantage by way of enabling anticipatory physiological and behavioral adaptation to cyclical changes in the environment [8]. A growing body of evidence shows that abnormalities in circadian rhythms exhibit high comorbidity with mood disorders [9,10,11]. The master circadian clock is governed by the suprachiasmatic nucleus (SCN), a bilateral structure of the anterior hypothalamus that is responsible for orchestrating daily oscillations in physiology and behavior with a period of approximately 24 h. The temporal information is integrated and transmitted to efferent targets by various SCN output signals [13]
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