Agomir-331 Suppresses Reactive Gliosis and Neuroinflammation after Traumatic Brain Injury.
Jin-Xing WangXiao XiaoXuan-Cheng HeBao-Dong HeChang-Mei LiuZhao-Qian TengPublished in: Cells (2023)
Traumatic brain injury usually triggers glial scar formation, neuroinflammation, and neurodegeneration. However, the molecular mechanisms underlying these pathological features are largely unknown. Using a mouse model of hippocampal stab injury (HSI), we observed that miR-331, a brain-enriched microRNA, was significantly downregulated in the early stage (0-7 days) of HSI. Intranasal administration of agomir-331, an upgraded product of miR-331 mimics, suppressed reactive gliosis and neuronal apoptosis and improved cognitive function in HSI mice. Finally, we identified IL-1β as a direct downstream target of miR-331, and agomir-331 treatment significantly reduced IL-1β levels in the hippocampus after acute injury. Our findings highlight, for the first time, agomir-331 as a pivotal neuroprotective agent for early rehabilitation of HSI.
Keyphrases
- cerebral ischemia
- traumatic brain injury
- cell proliferation
- long non coding rna
- early stage
- subarachnoid hemorrhage
- long noncoding rna
- mouse model
- blood brain barrier
- brain injury
- cognitive impairment
- oxidative stress
- cell death
- multiple sclerosis
- lymph node
- type diabetes
- adipose tissue
- neuropathic pain
- metabolic syndrome
- insulin resistance
- combination therapy
- radiation therapy
- resting state