The antioxidant enzyme Peroxiredoxin-1 controls stroke-associated microglia against acute ischemic stroke

小胶质细胞 冲程(发动机) 过氧化物还原蛋白 活性氧 医学 抗氧化剂 免疫学 脑损伤 缺血 生物 炎症 病理 细胞生物学 内科学 生物化学 机械工程 过氧化物酶 工程类
作者
Sinai Kim,Wonhyo Lee,Huiju Jo,Seongkeun Sonn,Se‐Jin Jeong,Seungwoon Seo,Joo‐Won Suh,Jing Jin,Hyae Yon Kweon,Tae Kyeong Kim,Shin Hye Moon,Sejin Jeon,Jong Woo Kim,Yu Ri Kim,Eun‐Woo Lee,Hwa Kyoung Shin,Sung Ho Park,Goo Taeg Oh
出处
期刊:Redox biology [Elsevier BV]
卷期号:54: 102347-102347 被引量:112
标识
DOI:10.1016/j.redox.2022.102347
摘要

Ischemic stroke is the leading cause of immortal disability and death worldwide. For treatment in the acute phase, it is necessary to control excessive reactive oxygen species (ROS) damage during ischemia/reperfusion (I/R). Microglia are well known to be closely associated with excessive ROS response in the early stage of I/R. However, the precise roles of microglia associated with mitigating ROS damage, and molecular markers of heterogenetic microglia in the I/R damaged brain has not been clarified. Here, we identified a new type of microglia associated with stroke in the I/R injured brain. Single-cell RNA sequencing (scRNA-seq) was used to assess transcriptional changes of microglia and immune cells in the contralateral (CL) and ipsilateral (IL) hemispheres after transient middle cerebral artery occlusion (tMCAO) surgery to mimic ischemic stroke. We classified a unique type of microglia with enhanced antioxidant function and markers similar to those of disease-associated microglia (DAM), designated them as stroke-associated microglia (SAM). The representative antioxidant enzyme, Peroxiredoxin-1 (Prdx1), was predominantly expressed in SAM and mediated ROS defense genes, including Txn1, Srx1, Mt1, and Mt2. In the Prdx1-/- I/R damaged brain, we observed significantly increased infarction, as assessed by TTC staining, and FACS analysis detected severe microglial cell death. Importantly, scRNA transcriptomics data showed that the SAM population was specifically decreased in Prdx1-/- mice and that these mice exhibited decreased ROS damage resistance. Inflammatory responses which were detected by ELISA and qPCR, were also increased in Prdx1-/- IL hemispheres. Finally, Prdx1-dependent antioxidative SAM were found to be essential for increasing the transcription levels of stroke-protective molecules, such as osteopontin and ferritin. A novel microglia type (SAM) is specifically activated in response to stroke I/R injury, and that Prdx1 expression is required for the activation and enhanced antioxidant function of SAM.
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