Potential contribution of the interaction between spinal cord-infiltrating Th1 cells and astrocytes to the development of nerve injury induced neuropathic pain (173.10)

Abstract

Abstract We previously demonstrated that CD4+ T cells contribute to the maintenance of L5 spinal nerve transection (L5Tx)-induced neuropathic pain in BALB/c mice, and T-Bet+ Th1 cells were found to be the dominant subtype of CD4+ T cells within the lumbar spinal cord following L5Tx. To investigate the specific downstream responses mediated by these infiltrating Th1 cells, we examined the cytokine expression of the spinal cord-infiltrating CD4+ T cells via flow cytometry. At day 7 post-L5Tx, the peak time for detecting the lumbar infiltrating CD4+ T cells, there were trends indicating increases in the numbers of IFNγ+ and TNFα+ lumbar spinal cord-infiltrating CD4+ T cells in the L5Tx group compared to the sham group. Further, we examined the expression of glial fibrillary acidic protein (GFAP), an indication of the level of astrocytic activation, in the L5 spinal cord via immunohistochemistry. As expected, in wild type BALB/c mice, L5Tx induced an increase in GFAP expression in the ipsilateral side of the spinal cord compared to sham-operated mice 7 days post-surgery. This increase appeared to be reduced in CD4 knockout mice post-L5Tx. Altogether our data suggest the involvement of the Th1 cytokines IFNγ and TNFα in the maintenance of L5Tx-induced neuropathic pain, which may have potential role in regulating spinal cord astrocyte activation.