• Journal of neurotrauma · Feb 2023

    TNF-α impairs pericyte-mediated cerebral microcirculation via the NF-κB/iNOS axis after experimental traumatic brain injury.

    • Shaorui Zheng, Cheng Wang, Long Lin, Shuwen Mu, Haibing Liu, Xiaofang Hu, Xiangrong Chen, and Shousen Wang.
    • Department of Neurosurgery, Fuzong Clinical Medical College, the Second Affiliated Hospital, Fujian Medical University, Fujian Province, China.
    • J. Neurotrauma. 2023 Feb 1; 40 (3-4): 349364349-364.

    AbstractSecondary structural and functional abnormalities of the neurovascular unit are important pathological mechanisms following traumatic brain injury (TBI). The neurovascular unit maintains blood-brain barrier and vascular integrity through interactions among glial cells, pericytes and endothelial cells. Trauma-induced neuroinflammation and oxidative stress may act as initiating factors for pathological damage after TBI, which in turn impairs cerebral microcirculatory function. Studies have shown that the tumor necrosis factor α (TNF-α)/nuclear factor-κB (NF-κB) pathway regulates inflammation and oxidative damage, but its role in pericyte-mediated cerebral microcirculation are currently unknown. Herein, we assessed TNF-α/NF-κB signaling and inducible nitric oxide synthase (iNOS), and the effects of the TNF-α inhibitor infliximab after TBI. Whether pericyte damage is dependent on the TNF-α/NF-κB/iNOS axis was also evaluated to explore the mechanisms underlying disturbances in the microcirculation after TBI. Microglia are activated after TBI to promote inflammatory factors and free radical release, and upregulate NF-κB and iNOS expression. After lipopolysaccharide treatment, the activity of TNF-α/NF-κB/iNOS in BV2 cells was also upregulated. Inhibition of TNF-α using infliximab reduced NF-κB phosphorylation and nuclear translocation and downregulated iNOS expression, which attenuated the inflammation and oxidative damage. Meanwhile, inhibition of TNF-α reversed pericyte marker loss, and improved pericyte function and microcirculation perfusion after TBI. In conclusion, our study suggests that microglia released TNF-α after TBI, which promoted neuroinflammation and oxidative stress by activating downstream NF-κB/iNOS signals, and this led to pericyte-mediated disturbance of the cerebral microcirculation.

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