骨愈合
医学
FOXP3型
伤口愈合
免疫系统
T细胞
细胞生长
下调和上调
刺激
细胞
内科学
免疫学
内分泌学
癌症研究
生物
外科
生物化学
基因
作者
Hui Jiang,Yunfan Ti,Yicun Wang,Jun Wang,Meng-Han Chang,Jianning Zhao,Guoqiang Sun
标识
DOI:10.1111/1440-1681.12902
摘要
Summary Bone fracture healing is a multistage regenerative process that requires the collaboration of various cell types, with approximately 5%‐10% of fractures not healing properly. Accumulating evidence suggests that dysregulations in the immune system are associated with defective healing. In a cohort of 30 bone fracture patients between 50 and 62 years of age, 8 patients displayed delayed healing. Compared to the 22 normal healing patients, these 8 delayed healing patients presented significantly lower frequencies of CD 4 + CD 25 hi Foxp3 + canonical regulatory T cells immediately following bone fracture and early on during the healing process. The CD 4 + CD 25 +/hi T cells from delayed healing patients also presented reduced capacity to express transforming growth factor beta ( TGF ‐β), and presented reduced surface expression levels of inhibitory molecules, including CTLA ‐4 and Lag‐3, compared to CD 4 + CD 25 +/hi T cells from normal healing patients. Moreover, CD 4 + CD 25 +/hi T cells from delayed healing patients were less potent in the suppression of CD 4 + CD 25 − autologous conventional T cell proliferation, and presented reduced expansion capacity in response to interleukin ( IL )‐2 stimulation. Overall, our results demonstrated multiple reductions in regulatory T cell function in delayed healing patients that could produce long‐lasting consequences in the bone fracture healing process.
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