Time of day dependent reduction in stroke infarct volume by the Reverb agonist SR9009 in mice.

Abstract

Ischemic stroke leads to disability and death worldwide and evidence suggests that stroke severity is affected by the time dimension of the stroke. Rev-Erbα regulates the core circadian clock through repression of the positive clock element Bmal1. However, it remains unclear if a Rev-Erbα agonist (SR9009) alleviates stroke pathology in mice. We found that stroke reduces the level of Rev-Erbα and elevates neuroinflammation and stroke severity at zeitgeber time (ZT) ZT06. Therefore, we hypothesized that SR9009 treatment may reduce neuroinflammation and stroke severity in a mouse suture occlusion model. At 12 to 14 weeks, C57BL/6 J (Wild Type, n = 5-10 mice/group) mice were randomly assigned to undergo MCAO stroke for 60 min at either zeitgeber time ZT06 (MCAO-ZT06-sleep phase) or ZT18 (MCAO-ZT18-awake phase). Stroked mice were treated with SR9009 (100 mg/kg) or vehicle at 1 h and 24 h after MCAO. After forty-eight hours of stroke, TTC staining, Western blot, and qRT-PCR were performed. We found that SR9009 treatment alleviates neuroinflammation and infarct volume by Rev-Erb remodeling in ZT06 stroke mice but not in ZT18 stroke mice. Additionally, monocytic and neutrophilic NLRP3 as well as brain NLRP3 levels were reduced by SR9009 treatment in ZT06 stroke though no effects were observed at ZT18 stroke. SR9009 also reduced TNFα expression and increased IL-10 expression in blood and brain in ZT06 stroke mice and no differences were observed at ZT18. There were no significant effects of SR9009 on neurological deficit score and sensorimotor function at ZT06 or ZT18 at 48 h. Our study demonstrates that SR9009 treatment reduces stroke volume, circulating immune response, circadian expression, and that the protection was circadian- and treatment time-dependent.