The when, what, and where of naturally-acquired microchimerism.

Abstract

Naturally acquired microchimerism (Mc) is increasingly recognized as an aspect of normal biology. Maternal-fetal bi-directional exchange during pregnancy creates a Mc legacy for the long-term in both individuals. Maternal Mc in her offspring and Mc of fetal origin in women with previous births are best studied. Other sources include from a known or vanished twin, miscarriage or pregnancy termination, older sibling, or previous maternal pregnancy loss. Mc is pleotropic and protean, present in diverse forms, and changing over time as other aspects of biology. Mc acquired from multiple sources, at different lifespan times, and taking on an array of diverse forms, creates a "forward, reverse, and horizontal inheritance" Mc landscape. Mc is found in adaptive and innate immune cells, as resident tissue-specific cells in a wide variety of human tissues, and among other forms as extracellular vesicles. HLA molecules function in a myriad of ways as key determinants for health and are of central importance in interactions between genetically disparate individuals. Studies of autoimmune disease have firmly established a primary role of HLA molecules. Studies of iatrogenic chimerism have established benefit of donor-recipient HLA-disparity against recurrent malignancy after transplantation. HLA molecules and HLA-relationships of families are therefore of particular interest in seeking to understand the role(s) of Mc at the interface of auto-immunity and healthy allo-immunity. This review will begin by providing perspective on Mc in biology followed by a primary focus on persistent Mc according to the human lifespan, in healthy individuals and with illustrative examples of autoimmune diseases.