Targeted MSC therapy restores implantation by spatially reconstituting the RSPO1 niche via IL10-CXCL12 signaling

生物 利基 细胞生物学 干细胞巢 间充质干细胞 信号转导 计算生物学 细胞信号 干细胞 遗传学
作者
Jiali Liu,Yue Dang,Congting Zhou,Chuyu Li,Mengru Wei,Li Shiqi,Jiawen Cui,Qingqing Zhou,Ying Yu,Feiyi Wang,Xin Shang,Yantong Li,Jing Wang,Fang Zhou,Guangji Wang
出处
期刊:Pharmacological Research [Elsevier BV]
卷期号:: 108249-108249
标识
DOI:10.1016/j.phrs.2026.108249
摘要

Endometrial injury (EI) is a primary cause of refractory infertility characterized by defective glandular regeneration and impaired receptivity, for which effective regenerative therapies remain limited. Here, we identify the depletion of stromal-derived RSPO1 as a conserved molecular defect driving the loss of glandular stemness in both murine models and patient samples. We further demonstrate that this regeneration failure is rooted in the disruption of the spatial organization within the peri-glandular niche. Mechanistically, injured glandular epithelia act as spatial regulators by activating a paracrine IL10-IL10R-CD26 signaling cascade that enzymatically shapes a localized CXCL12 gradient. This chemokine-guided mechanism governs the selective recruitment of CXCR4⁺ mesenchymal stromal cells (MSCs) to peri-glandular domains. Crucially, we reveal that MSC-mediated repair operates via a spatially restricted mechanism of action, where therapeutic efficacy hinges on precise niche targeting. Upon niche localization, MSC-delivered RSPO1 reconstitutes WNT-driven glandular regeneration and implantation competence. Leveraging this endogenous spatial guidance, we engineered CXCR4/RSPO1 dual-enhanced MSCs to overcome delivery constraints, significantly improving homing efficiency and functional recovery in refractory EI models. Validation in patient-derived biopsies and organoids confirms the translational relevance of the IL10-CXCL12-RSPO1 regenerative axis. Collectively, these findings establish spatially targeted cell delivery as a precision pharmacotherapy, providing a mechanistic foundation for treating refractory infertility.
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