Yanting Yao , Qiaowei Wu , Kaikun Yuan , Pei Wu , Chao Xu , Zhiyong Ji , Weishi Xu , Hongli Yu , Anyu Xu , Yanchen Liu , Huaizhang Shi
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Abstract
Background and purpose
The poor prognosis of subarachnoid hemorrhage (SAH) is closely linked to neuroinflammation and neuronal apoptosis. The CCL2/CCR2 signaling axis, a cytoplasmic pathway responsible for recruiting immune cells, plays a significant role in regulating neuroinflammation in neurological diseases. Bindarit, an inhibitor of chemokine CC motif ligand 2(CCL2), has been shown to demonstrate neuroprotective effects in various central nervous system diseases. This study aimed to investigate the anti-inflammatory effects of Bindarit after SAH.
Methods
Pre-processed RNA-seq transcriptome datasets GSE79416 from the Gene Expression Omnibus (GEO) database were analyzed to identify genes differentially expressed between mice with SAH and control mice using bioinformatics methods. Bindarit, a CCL2 inhibitor, was administered intraperitoneally one hour after SAH. Recombinant CCL2 protein was administered via the lateral ventricle one hour before SAH induction. HT22 cells were cultured and stimulated by oxyhemoglobin to establish an in vitro model of SAH.
Results
Analysis of GSE79416 datasets revealed upregulation of CCL2 expression, identifying it as a hub gene in SAH. Following SAH, CCL2 expression increased in rat brain tissue, reaching the highest level 24 h after SAH. Bindarit improved the short-term and long-term neurological deficits after SAH and also exhibited the anti-inflammatory effects following SAH. Conversely, administration of recombinant CCL2 protein attenuated the protective effects of Bindarit. In vitro, Bindarit significantly reduced neuronal inflammation.
Conclusion
Endogenous CCL2 expression was upregulated in the rat SAH model. Bindarit improved neurological functions and reduced neuroinflammation by regulating the CCL2/CCR2/NF-κB pathway in early brain injury after SAH.
期刊介绍:
The Brain Research Bulletin (BRB) aims to publish novel work that advances our knowledge of molecular and cellular mechanisms that underlie neural network properties associated with behavior, cognition and other brain functions during neurodevelopment and in the adult. Although clinical research is out of the Journal''s scope, the BRB also aims to publish translation research that provides insight into biological mechanisms and processes associated with neurodegeneration mechanisms, neurological diseases and neuropsychiatric disorders. The Journal is especially interested in research using novel methodologies, such as optogenetics, multielectrode array recordings and life imaging in wild-type and genetically-modified animal models, with the goal to advance our understanding of how neurons, glia and networks function in vivo.
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