Mother's ‘genetic’ little helpers: Microchimeric maternal cells promote reproductive fitness and survival of non-inherited traits

Abstract Reproductive success among outbred placental mammalian species requires active tolerance in mothers to foreign paternal antigens expressed by the developing fetus. Although this essential necessity for immunological tolerance has primarily been examined from the perspective of maternal responsiveness to foreign paternal antigens expressed by the developing fetus, exposure to maternal tissue during in utero development also imprints tolerance to genetically foreign non-inherited maternal antigens (NIMA) that persists into adulthood. Nonetheless, until now the biological advantages reinforcing conservation of tolerance to NIMA across eutherian mammals remained unclear. We show vertically transferred maternal cells that establish microchimerism in offspring promote systemic accumulation of regulatory T cells with NIMA specificity. In females, NIMA-specific regulatory T cells expand during pregnancies sired by males expressing alloantigens with overlapping NIMA specificity, thereby averting fetal wastage normally triggered by disruptions of fetal tolerance. Thus, reproductive fitness among females carrying embryos expressing paternally inherited antigens overlapping with NIMA is selectively enhanced. These findings demonstrate that genetic fitness, canonically thought to be restricted to Mendelian inheritance, is enhanced in female placental mammals through vertically transferred maternal cells that promote conservation of NIMA and enforce cross-generational reproductive benefits. Future studies will investigate the cellular and molecular phenotype of the microchimeric maternal cells to elucidate specific mechanisms that drive NIMA-specific regulatory T cell accumulation.