Microglial inflammation has been implicated in the pathophysiology of major depressive disorder
however, the underlying biological mechanisms remain inadequately understood. Consequently, we conducted a screening of the Poly ADP-ribose (PAR) polymerase (PARP) family expression in the hippocampus of chronic unpredictable stress (CUS) mouse models and investigated the specific role of PARP14 in microglial inflammation and its association with depression. Here, this study demonstrated the elevated PARP14 expression in the hippocampus of CUS mice. The knockdown of PARP14 in the hippocampus did not mitigate depressive-like behaviors in mice, whereas overexpression of PARP14 significantly mitigated these behaviors. Furthermore, PARP14 is abundant in microglia, and microglial-targeted PARP14 overexpression significantly alleviated depressive-behaviors in CUS, reduced microglial activation, and inhibited the central inflammatory responses. Mechanistically, PARP14 positively regulated nicotinamide nucleotide transhydrogenase (NNT) expression in microglia, and the inflammatory response of microglia induced by PARP14 knockdown was suppressed through NNT overexpression. Additionally, deficiency in NNT led to an accumulation of reactive oxygen species (ROS) and subsequent microglial inflammation, which was effectively inhibited by the ROS inhibitor N-Acetylcysteine. These findings suggest that PARP14 alleviates depressive-like behaviors in mice by inhibiting microglial activation via NTT-mediated clearance of ROS.