CRMP2 phosphorylation regulates polarization and spinal infiltration of CD4+ T lymphocytes, inhibits spinal glial activation, and arthritic pain

医学 慢性疼痛 T细胞 免疫学 渗透(HVAC) 敏化 神经炎症 关节炎 中枢神经系统 炎症 病理 内分泌学 免疫系统 物理 精神科 热力学
作者
Yuepeng Jiang,Jun–Jun Wen,Xiao Ma,Cun-Rui Yuan,Feng Zhou,Meng-Jia Zheng,Xin Tang,Xiaohua Yu,Weidong G. Lai,Yihan Zhou,Wenhua Yu,Wen‐Ting You,Yan Jin,Ki Duk Park,Rajesh Khanna,Chengping Wen,Jie Yu
出处
期刊:Pain [Lippincott Williams & Wilkins]
标识
DOI:10.1097/j.pain.0000000000003599
摘要

Abstract Chronic pain, a hallmark symptom of rheumatoid arthritis (RA), is strongly linked to central sensitization driven by spinal glial cell activation. Despite its clinical significance, the precise mechanisms remain unclear. Recent findings highlight the crucial role of interactions between circulating monocytes and central nervous system glial cells in chronic pain associated with autoimmune conditions. Our study focuses on CD4 + T-cell infiltration into the spinal dorsal horn (SDH) after collagen-induced arthritis (CIA) immunization. Immunohistochemistry results indicate that CD4 + T cells are critical in initiating arthritic pain. Intrathecal injection of CD4 + T cells in naïve mice induced glial activation and pain-like behaviors, while neutralizing antibodies suppressed these effects. Elevated phosphorylation of collapsin response mediator protein 2 (CRMP2) in CIA-derived CD4 + T lymphocytes was closely associated with pathological spinal infiltration. To modulate CRMP2 phosphorylation, we used naringenin (NAR), a known CRMP2 regulator, and (S)-Lacosamide ((S)-LCM), a specific inhibitor of phosphorylated CRMP2. Both compounds reduced CD4 + T-cell infiltration into the SDH and attenuated central sensitization in CIA rats. CRMP2 conditional knockout (cKO) in CD4 + T cells significantly alleviated arthritic pain. In addition, in vitro blood brain barrier models and Transwell assays showed impaired CD4 + T-cell migration and transendothelial invasion upon cKO or treatment with NAR and (S)-LCM. These interventions also decreased the proportion of polarized CD4 + T cells in CIA-induced mice. Our research highlights the role of CRMP2 phosphorylation in CD4 + T-cell behavior, spinal infiltration, and pain modulation, suggesting potential novel therapeutic strategies for RA-associated chronic pain.

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