针灸科
转录组
电池类型
细胞
医学
神经科学
单细胞分析
突触
人口
生物信息学
腰痛
穴位
生物
细胞生物学
慢性疼痛
临床终点
病理
机制(生物学)
作者
Gexin Zhao,Xiuju Wu,Shunfa Huang,Shihui Huang,Guodong Zhang,Xin Zhou,Shengqi Cao,Hyun-Ju Lim,Mark I. Duhon,Rui Li,Kristina I. Boström,Xinmin Li
出处
期刊:Molecular Pain
[SAGE Publishing]
日期:2025-11-28
卷期号:21: 17448069251405974-17448069251405974
标识
DOI:10.1177/17448069251405974
摘要
The cellular and molecular mechanisms of acupuncture have been investigated across various tissues in multiple animal models. However, the dynamic cellular and molecular changes at human acupuncture points remain unexplored. The primary challenge preventing such a study is the practical difficulty of obtaining sufficient cells from acupoints. To address this, we developed a new needle manipulation technique that enables the collection of sufficient cell number from the acupuncture needle during the treatment. Using this approach and single-cell technology, we identified eight cell types at the acupoint BL23: inflammatory fibroblast, myofibroblast, skeletal muscle cell, endothelial cell, smooth muscle cell, adipocyte, macrophage, and a novel cell type characterized by marker genes CNTNAP2 and CSMD1 . Remarkably, this novel cell population was significantly enriched during the pain relief phase compared to the pain state, while the other seven cell types were significantly reduced following acupuncture analgesia. Transcriptomic analysis suggested that these novel cells are involved in synapse assembly and synaptic plasticity. This study presents the first characterization of cellular and transcriptional dynamics at the acupoint BL23, offering new insights into the mechanism underlying acupuncture-induced pain relief.
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