成纤维细胞
祖细胞
医学
纤维化
心脏纤维化
川地34
癌症研究
病理
祖细胞
循环系统
免疫学
心脏移植
干细胞
肺纤维化
心力衰竭
肌成纤维细胞
生物
心脏病
移植
成纤维细胞生长因子
心肌纤维化
作者
Xiaotong Sun,Ting Wang,Hui Gong,Yichao Qiu,Yuesheng Zhang,Mengjia Chen,Jianing Xue,Guoguo Ye,Rong Mou,Peng Teng,Weidong Li,Ting Chen,Li Zhang,Xiaogang Guo,Wei Mao,H J Zhao,Liang Ma,Qingbo Xu
出处
期刊:Circulation Research
[Lippincott Williams & Wilkins]
日期:2026-01-14
卷期号:138 (4): e326558-e326558
被引量:2
标识
DOI:10.1161/circresaha.125.326558
摘要
BACKGROUND: Fibrosis is one of the major causes of cardiac allograft malfunction and is mainly driven by fibroblasts. However, the role of recipient-derived cells in generating allograft fibroblasts and the underlying mechanisms remain to be explored. METHODS: We analyzed human heart allograft samples and used murine transplant models (C57BL/6J, Cd34 (cluster of differentiation 34)-CreER T2 ; R26-tdTomato, mRFP (cell membrane labeled with red fluorescence protein) mice, Rosa26-iDTR, Postn -CreER T2 ; R26-tdTomato, double-tdTomato, and immunodeficient mice with BALB/c donors). Human progenitor cells were cultivated from blood. Single-cell RNA sequencing, Western blotting, quantitative polymerase chain reaction, and immunohistochemistry, whole-mount staining with 3-dimensional reconstruction, and in vivo / in vitro experiments were applied to characterize allograft cellular composition and communication. RESULTS: Single-cell RNA sequencing was introduced to delineate the allograft cell atlas of patients and mice. Y chromosome analysis identified that recipient-derived cells contributed to allograft fibroblasts in both patients and murine models. Combining the genetic cell lineage tracing technique, we found that recipient-derived CD34 + cells could give rise to activated fibroblasts. Bone marrow transplantation and parabiosis models revealed that the recipient's circulating non–bone marrow Cd34 + cells could generate allograft fibroblasts. Human CD34 + cells could differentiate into fibroblasts both in vivo and in vitro. CD34 + fibroblast progenitors were recruited by CXCL12 (C-X-C motif chemokine ligand 12)-ACKR3 (atypical chemokine receptor 3) and MIF (macrophage migration inhibitory factor)-ACKR3 interactions and differentiated via the TGFβ (transforming growth factor beta)/GFPT2 (glutamine-fructose-6-phosphate transaminase 2)/SMAD2/4 (small mother against decapentaplegic 2/4) axis. Ablation of recipient Cd34 + cells reduced activated fibroblasts and alleviated allograft fibrosis. CONCLUSIONS: We identify circulating CD34 + cells as a novel source of fibroblast progenitors that contribute to cardiac allograft fibrosis, suggesting that targeting recipient CD34 + cells could be a novel therapeutic potential for treating cardiac fibrosis after heart transplantation.
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