A review of the biology and classification of human chimeras

Microchimerism: The mystery of multiple DNA and its implications in forensic sciences

Microchimerism (MC) refers to the presence of small amounts of foreign cells or DNA in the tissues or circulation of an individual. It generally occurs through mother-fetus interaction, twin pregnancies, and intergenerational transmission. MC is influenced by genetic and environmental factors such as toxic conditions, immunological suppression, and various diseases (influenza, COVID-19, etc.). Progenitor cells transferred from the fetus to the mother through fetal MC are known to differentiate into neurons in the maternal brain. Although the relationship between these cells and the brain is not fully understood, it is thought that they may play a role in the emergence of some mental illnesses. The long-term presence of microchimeric cells in the body by differentiating into various cell types such as the brain, heart, bone, liver, and lung can lead to the presence of two or more DNA sets in an individual. This can lead to confusion in forensic identification and sex determination processes. This review aims to provide a comprehensive review of the definition, transmission pathways, detection duration in the human body, associated diseases, analytical detection techniques, and the importance of MC in forensic sciences. In this context, it is aimed to draw attention to the potential dangers of MC and contribute to the justice system. Furthermore, this study emphasizes the need for scientific research on this topic by creating a starting point for future research in the field of MC.

Chimerism and mosaicism shape our physical constitution and impact medical conditions

ABO blood group discrepancies in healthy individuals were caused by body-wide chimerism and mosaicism. They can be evaluated with new diagnostic options for disease-related cell clones that are typically associated with mosaicism. The observations raise the attention for sporadic mixed-field observations of any blood group antigen. Commentary on: Dauber et al. Body-wide chimerism and mosaicism are predominant causes of naturally occurring ABO discrepancies. Br J Haematol 2024; 205:1188-1196.

Body-wide chimerism and mosaicism are predominant causes of naturally occurring ABO discrepancies

Routine ABO blood group typing of apparently healthy individuals sporadically uncovers unexplained mixed-field reactions. Such blood group discrepancies can either result from a haematopoiesis-confined or body-wide dispersed chimerism or mosaicism. Taking the distinct clinical consequences of these four different possibilities into account, we explored the responsible cause in nine affected individuals. Genotype analyses revealed that more than three-quarters were chimaeras (two same-sex females, four same-sex males, one sex-mismatched male), while two were mosaics. Short tandem repeat analyses of buccal swab, hair root and nail DNA suggested a body-wide involvement in all instances. Moreover, genome-wide array analyses unveiled that in both mosaic cases the causative genetic defect was a unique copy-neutral loss of heterozygosity encompassing the entire long arm of chromosome 9. The practical transfusion- or transplantation-associated consequences of such incidental discoveries are well known and therefore easily manageable. Far less appreciated is the fact that such findings also call attention to potential problems that directly ensue from their specific genetic make-up. In case of chimerism, these are the appearance of seemingly implausible family relationships and pitfalls in forensic testing. In case of mosaicism, they concern with the necessity to delineate innocuous pre-existent or age-related from disease-predisposing and disease-indicating cell clones.

Mythological figures in art and genetics: Current perspectives on cyclopia and chimerism

Mythical figures have been part of human cultural tradition for centuries, worldwide. Some of them were totally imaginary, others were likely inspired by individuals with malformation syndromes, while others are composites of parts of different species. Various artists have created works of art based on these mythical or hybrid beings, such as cyclops and chimeras. The plethora of representations of artworks in ancient, but also contemporary art (statues, paintings, illustrations, photographs, installations) is proof that they still continue to be a source of inspiration, although their rendering and interpretation have changed over time. Contemporary medical genetic knowledge has revealed the underlying pathogenesis and causative molecular basis of malformation syndromes and delineates the corresponding phenotypes. Today, many figures once viewed as mythical are reflected in living humans with medical diagnoses. Ancient terms that arose in mythology-cyclopia, chimera/ism, and others-live on in the medical literature.

Natural human chimeras: A review

The term chimera has been borrowed from Greek mythology and has a long history of use in biology and genetics. A chimera is an organism whose cells are derived from two or more zygotes. Recipients of tissue and organ transplants are artificial chimeras. This review concerns natural human chimeras. The first human chimera was reported in 1953. Natural chimeras can arise in various ways. Fetal and maternal cells can cross the placental barrier so that both mother and child may become microchimeras. Two zygotes can fuse together during an early embryonic stage to form a fusion chimera. Most chimeras remain undetected, especially if both zygotes are of the same genetic sex. Many are discovered accidently, for example, during a routine blood group test. Even sex-discordant chimeras can have a normal male or female phenotype. Only 28 of the 50 individuals with a 46,XX/46,XY karyotype were either true hermaphrodites or had ambiguous genitalia. Blood chimeras are formed by blood transfusion between dizygotic twins via the shared placenta and are more common than was once assumed. In marmoset monkey twins the exchange via the placenta is not limited to blood but can involve other tissues, including germ cells. To date there are no examples in humans of twin chimeras involving germ cells. If human chimeras are more common than hitherto thought there could be many medical, social, forensic, and legal implications. More multidisciplinary research is required for a better understanding of this fascinating subject.