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Early Embryonic Chromosome Instability Results in Stable Mosaic Pattern in Human Tissues
Authors:Hasmik Mkrtchyan  Madeleine Gross  Sophie Hinreiner  Anna Polytiko  Marina Manvelyan  Kristin Mrasek  Nadezda Kosyakova  Elisabeth Ewers  Heike Nelle  Thomas Liehr  Marianne Volleth  Anja Weise
Affiliation:1. Institute of Human Genetics and Anthropology, Jena University Hospital, Jena, Germany.; 2. National Medical Center “Mother and Child”, Minsk, Belarus.; 3. Department of Genetics and Cytology, Yerevan State University, Yerevan, Armenia.; 4. Institute of Human Genetics, Magdeburg, Germany.;Ludwig-Maximilians-Universität München, Germany
Abstract:The discovery of copy number variations (CNV) in the human genome opened new perspectives on the study of the genetic causes of inherited disorders and the aetiology of common diseases. Here, a single-cell-level investigation of CNV in different human tissues led us to uncover the phenomenon of mitotically derived genomic mosaicism, which is stable in different cell types of one individual. The CNV mosaic ratios were different between the 10 individuals studied. However, they were stable in the T lymphocytes, immortalized B lymphoblastoid cells, and skin fibroblasts analyzed in each individual. Because these cell types have a common origin in the connective tissues, we suggest that mitotic changes in CNV regions may happen early during embryonic development and occur only once, after which the stable mosaic ratio is maintained throughout the differentiated tissues. This concept is further supported by a unique study of immortalized B lymphoblastoid cell lines obtained with 20 year difference from two subjects. We provide the first evidence of somatic mosaicism for CNV, with stable variation ratios in different cell types of one individual leading to the hypothesis of early embryonic chromosome instability resulting in stable mosaic pattern in human tissues. This concept has the potential to open new perspectives in personalized genetic diagnostics and can explain genetic phenomena like diminished penetrance in autosomal dominant diseases. We propose that further genomic studies should focus on the single-cell level, to better understand the aetiology of aging and diseases mediated by somatic mutations.
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