Time-of-day defines NAD efficacy to treat diet-induced metabolic disease by synchronizing the hepatic clock in mice.

The circadian clock is an endogenous time-tracking system that anticipates daily environmental changes. Misalignment of the clock can cause obesity, which is accompanied by reduced levels of the clock-controlled, rhythmic metabolite NAD. Increasing NAD is becoming a therapy for metabolic dysfunction; however, the impact of daily NAD fluctuations remains unknown.

Astrocytic circadian clock control of energy expenditure by transcriptional stress responses in the ventromedial hypothalamus.

Hypothalamic circuits compute systemic information to control metabolism. Astrocytes residing within the hypothalamus directly sense nutrients and hormones, integrating metabolic information, and modulating neuronal responses. Nevertheless, the role of the astrocytic circadian clock on the control of energy balance remains unclear.

KDM8 epigenetically controls cardiac metabolism to prevent initiation of dilated cardiomyopathy.

Cardiac metabolism is deranged in heart failure, but underlying mechanisms remain unclear. Here, we show that lysine demethylase 8 (Kdm8) maintains an active mitochondrial gene network by repressing , thus preventing dilated cardiomyopathy leading to lethal heart failure. Deletion of in mouse cardiomyocytes increased H3K36me2 with activation of and repression of target genes in the NAD pathway before dilated cardiomyopathy initiated.