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Ying Li, Fuzhe Ma, Huimin Li, Yuguo Song, Huan Zhang, Ziping Jiang, and Hao Wu

Impaired wound healing is a common complication among patients with diabetes mellitus (DM), resulting in high rates of disability and mortality. Recent findings highlighted the critical role of nuclear factor erythroid 2-related factor 2 (NRF2) – a master of cellular antioxidants scavenging excessive DM-induced free radicals – in accelerating diabetic wound healing. Dimethyl fumarate (DMF) is a potent NRF2 activator used for the treatment of multiple sclerosis. However, the effect of DMF on wound healing has not been determined. The present study investigated the effect of DMF on the diabetic and the non-diabetic wound healing in streptozotocin-induced diabetic mice and non-diabetic control mice. DMF activated NRF2 signaling under both conditions. Interestingly, DMF attenuated oxidative damage and inflammation and accelerated wound closure in diabetic mice. However, this effect was not observed in non-diabetic mice. Keratinocytes were treated with normal glucose (NG), high glucose (HG) or hydrogen peroxide (H2O2), in the presence or absence of DMF to assess the role of reactive oxygen species (ROS) – inducible in DM – in mediating DMF-induced protection. Both HG and H2O2 elevated ROS, oxidative damage and inflammation, the effects of which were similarly blunted by DMF. However, in spite of the activation of NRF2, DMF lost this capability under the NG condition. The findings of this study demonstrate that ROS activate the protective effect of DMF on the diabetic wound healing.

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Chang-Jiang Wang, Fei Gao, Yi-Jie Huang, Dong-Xu Han, Yi Zheng, Wen-Hua Wang, Hao Jiang, Yan Gao, Bao Yuan, and Jia-Bao Zhang

The pituitary gland functions as a prominent regulator of diverse physiologic processes by secreting multiple hormones. Circular RNAs (circRNAs) are an emerging novel type of endogenous noncoding RNA that have recently been recognized as powerful regulators participating in various biological processes. However, the physiological roles and molecular mechanisms of circRNAs in pituitary remain largely unclear. Herein, we concentrated on expounding the biological function and molecular mechanism of circRNA in rat pituitary. In this study, we identified a novel circRNA in pituitary tissue, circAkap17b, which was pituitary- and stage-specific. Then, we designed circAkap17b siRNA and constructed an overexpression plasmid to evaluate the effect of loss- and gain-of-circAkap17b function on FSH secretion. Interestingly, silencing circAkakp17b significantly inhibited FSH expression and secretion, while overexpression of circAkap17b enhanced FSH expression and secretion. Furthermore, dual luciferase reporter and RNA immunoprecipitation (RIP) assays confirmed that circAkap17b could serve as miR-7 sponge to regulate target genes. Additionally, miR-7b suppressed FSH expression and secretion by directly targeting Fshb through the dual luciferase reporter and RT-qPCR analysis. Additionally, rescue experiments showed that circAkap17b could regulate FSH secretion in pituitary cells through a circAkap17b-miR-7-Fshb axis. Collectively, we demonstrated that circAkap17b could act as a molecular sponge of miR-7 to upregulate expression of the target gene Fshb and facilitate FSH secretion. These findings provide evidence for a novel regulatory role of circRNAs in pituitary.