Division of Infectious Diseases, Center for Inflammation and Tolerance, Cincinnati Children's Hospital Medical Center, Department of Pediatrics, University of Cincinnati College of Medicine, Cincinnati, OH, United States.
Front Immunol. 2024 Oct 30;15:1478465. doi: 10.3389/fimmu.2024.1478465. eCollection 2024.
Bidirectional exchange of cells between mother and fetus occurs during pregnancy, and persistence of these genetically foreign cells establishes long-term microchimerism in both individuals after parturition. Since women can have multiple pregnancies, and all mothers were once daughters themselves, the microchimeric milieu in each woman could theoretically contain cells from a variety of origins, including from their own mothers as well as their babies from each pregnancy. Interestingly and in sharp contrast to this prediction, we recently showed preexisting populations of microchimeric cells are lost following pregnancy and associated with seeding of new fetal microchimeric cells. Complete loss of preexisting microchimeric cells in this context draws parallels to immunological rejection with synchronized elimination of cells and tissues that express defined discordant antigens. This perspective evaluates this provocative hypothesis regarding pregnancy induced rejection of microchimeric cells, including new experimental data comparing microchimerism levels in mice simultaneously lacking B and T cells before pregnancy, and after parturition with primary and secondary pregnancies.
妊娠期间母体与胎儿之间会发生细胞双向交换,这些遗传上的异体细胞在分娩后会在两者中持续存在,建立长期的微嵌合体。由于女性可以多次怀孕,而且所有母亲都曾是女儿,因此每个女性的微嵌合体环境理论上可能包含来自多种来源的细胞,包括来自自身母亲以及每次怀孕的婴儿。有趣的是,与这一预测形成鲜明对比的是,我们最近发现妊娠后预先存在的微嵌合细胞群会丢失,并且伴随着新的胎儿微嵌合细胞的定植。在这种情况下,预先存在的微嵌合细胞的完全丢失与免疫排斥相似,伴随着表达特定不一致抗原的细胞和组织的同步消除。本观点评估了关于妊娠诱导微嵌合细胞排斥的这一有争议的假说,包括比较了妊娠前同时缺乏 B 和 T 细胞的小鼠以及初次和再次妊娠后微嵌合水平的新实验数据。
