Brain milieu induces early microglial maturation through the BAX-Notch axis.
Fangying ZhaoJiangyong HeJun TangNianfei CuiYanyan ShiZhifan LiShengnan LiuYazhou WangMing MaCongjian ZhaoLingfei LuoLi LiPublished in: Nature communications (2022)
Microglia are derived from primitive myeloid cells and gain their early identity in the embryonic brains. However, the mechanism by which the brain milieu confers microglial maturation signature remains elusive. Here, we demonstrate that the bax cq55 zebrafish and Bax tm1Sjk mouse embryos exhibit similarly defective early microglial maturation. BAX, a typical pro-apoptotic factor, is highly enriched in neuronal cells and regulates microglial maturation through both pro-apoptotic and non-apoptotic mechanisms. BAX regulates dlb via the CaMKII-CREB axis calcium-dependently in living neurons while ensuring the efficient Notch activation in the immigrated pre-microglia by apoptotic neurons. Notch signaling is conserved in supporting embryonic microglia maturation. Compromised microglial development occurred in the Cx3cr1 Cre/+ Rbpj fl/fl embryonic mice; however, microglia acquire their appropriate signature when incubated with DLL3 in vitro. Thus, our findings elucidate a BAX-CaMKII-CREB-Notch network triggered by the neuronal milieu in microglial development, which may provide innovative insights for targeting microglia in neuronal disorder treatment.
Keyphrases
- induced apoptosis
- inflammatory response
- neuropathic pain
- lipopolysaccharide induced
- lps induced
- spinal cord
- endoplasmic reticulum stress
- cell death
- anti inflammatory
- signaling pathway
- oxidative stress
- cell cycle arrest
- spinal cord injury
- cerebral ischemia
- cell proliferation
- type diabetes
- drug delivery
- insulin resistance
- transcription factor
- high fat diet induced
- cancer therapy
- skeletal muscle