DUSP14 rescues cerebral ischemia/reperfusion (IR) injury by reducing inflammation and apoptosis via the activation of Nrf-2

2019 
Abstract Ischemic stroke is the second most common cause of death, a major cause of acquired disability in adults. However, the pathogenesis that contributes to ischemic stroke has not been fully understood. Dual-specificity phosphatase 14 (DUSP14, also known as MKP6) is a MAP kinase phosphatase, playing important role in regulating various cellular processes, including oxidative stress and inflammation. However, its effects on cerebral ischemia/reperfusion (IR) are unclear. In the study, we found that DUSP14 expression was decreased responding to IR surgery. Over-expressing DUSP14 reduced the infarction volume of cerebral IR mice. Cognitive dysfunction was also improved in mice with DUSP14 over-expression. Promoting DUSP14 expression markedly reduced the activation of glial cells, as evidenced by the decreases in GFAP and Iba-1 expressions in mice with cerebral IR injury. In addition, inflammatory response induced by cerebral IR injury was inhibited in DUSP14 over-expressed mice, as proved by the reduced expression of tumor necrosis factor (TNF)-α and interleukin 1β (IL-1β). Furthermore, oxidative stress was markedly reduced by DUSP14 over-expression through elevating nuclear factor-erythroid 2 related factor 2 (Nrf-2) signaling pathway. Importantly, we found that DUSP14 could interact with Nrf-1, which thereby protected mice against cerebral IR injury. In vitro, we also found that repressing Nrf-2 expression abrogated DUSP14 over-expression-reduced inflammation and ROS generation. Consistent with the anti-inflammatory effect of DUSP14, reducing the production of reactive oxygen species (ROS) also down-regulated TNF-α and IL-1β expressions. Collectively, elevated DUSP14 alleviated brain damage from cerebral IR injury through Nrf-2-regulated anti-oxidant signaling pathway, and the restraining of inflammatory response. These results suggested that DUSP14 might be a potential therapeutic target to prevent ischemic stroke.
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