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对非遗传母体抗原的耐受性由LysM CD11c母体微嵌合细胞维持。

Tolerance to non-inherited maternal antigen is sustained by LysM CD11c maternal microchimeric cells.

作者信息

Peng Yanyan, Pham Giang, Sun Jiahui, Adhikari Ujjwal, Kumar Sudeep, Shao Tzu-Yu, Kinder Jeremy M, Turner Lucien H, Way Sing Sing

机构信息

Division of Infectious Diseases, Center for Inflammation and Tolerance, Cincinnati Children's Hospital Medical Center, University of Cincinnati School of Medicine, Cincinnati, OH 45229, USA.

Division of Infectious Diseases, Center for Inflammation and Tolerance, Cincinnati Children's Hospital Medical Center, University of Cincinnati School of Medicine, Cincinnati, OH 45229, USA.

出版信息

Immunity. 2025 Aug 25. doi: 10.1016/j.immuni.2025.08.005.

DOI:10.1016/j.immuni.2025.08.005

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12412910/

Abstract

Maternal-fetal microchimerism is increasingly linked with both inflammatory disorders and immune tolerance phenotypes. However, finding microchimeric cells in target tissues does not establish causality, which require platforms for manipulating these rare and heterogeneous cells. Here, we studied maternal microchimeric cells (MMc) that sustain non-inherited maternal antigen (NIMA) tolerance. Complete MMc depletion overturned hallmark features of NIMA-specific tolerance including FOXP3 regulatory T cell expansion and cross-generational resiliency against fetal wastage. Stepwise depletion of individual MMc subsets showed that NIMA-specific tolerance is sustained exclusively by microchimerism in maternal LysM CD11c Vav1 leukocyte cells. Interestingly, conditional depletion of these tolerogenic cells does not diminish overall MMc levels, dissociating NIMA-specific tolerance from MMc persistence. Thus, tolerance to maternal alloantigens is maintained by only a small fraction of MMc identified by LysM and CD11c co-expression, with persistence of remaining MMc highlighting remarkable adaptation to allogeneic maternal cells acquired in this early-life developmental context.

摘要

母胎微嵌合体与炎症性疾病和免疫耐受表型的联系日益紧密。然而，在靶组织中发现微嵌合细胞并不能确立因果关系，这需要有操纵这些罕见且异质性细胞的平台。在此，我们研究了维持非遗传性母体抗原（NIMA）耐受的母源微嵌合细胞（MMc）。完全清除MMc会颠覆NIMA特异性耐受的标志性特征，包括FOXP3调节性T细胞扩增以及对胎儿流产的跨代抵抗力。逐步清除各个MMc亚群表明，NIMA特异性耐受仅由母源LysM CD11c Vav1白细胞中的微嵌合体维持。有趣的是，这些致耐受性细胞的条件性清除并不会降低整体MMc水平，从而将NIMA特异性耐受与MMc的持续存在区分开来。因此，对母体同种异体抗原的耐受仅由一小部分通过LysM和CD11c共表达鉴定出的MMc维持，其余MMc的持续存在突出了在这种早期发育背景下对同种异体母体细胞的显著适应性。