Abstract
After spinal cord injury (SCI), reactive astrocytes in the injured area are triggered after spinal cord injury (SCI) and to polarize into A1 astrocytes with a proinflammatory phenotype or A2 astrocytes with an anti-inflammatory phenotype. Monopolar spindle binder 2 (MOB2) induces astrocyte stellation, maintains cell homeostasis, and promotes neurite outgrowth; however, its role in the phenotypic transformation of reactive astrocytes remains unclear. Here, we confirmed for the first time that MOB2 is associated with A1/A2 phenotypic switching in reactive astrocytes following SCI in mice. MOB2 modulated A1/A2 transformation in a primary astrocyte reactive cell model. Therefore, we constructed MOB2 conditional knockout mice (MOB2GFAP-CKO) and discovered that conditional knockout of MOB2 inhibited the conversion of reactive astrocytes from A1 to A2 and hindered spinal cord function recovery. Mechanistically, MOB2 increased the activation of PI3K-AKT signaling to promote A1/A2 transformation in vitro, whereas sc79 (an AKT activator) reversed the subtype transformation of reactive astrocytes and improved functional recovery in MOB2GFAP-CKO mice after SCI. Taken together, study provides the first insights into how MOB2 acts as a novel regulator to promote the conversion this of the reactive astrocyte phenotype from A1 to A2, showing great potential for the treatment of SCI.
Published Version
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