1. Dynamic Methylation of an L1 Transduction Family during Reprogramming and Neurodifferentiation.
- Author
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Salvador-Palomeque C, Sanchez-Luque FJ, Fortuna PRJ, Ewing AD, Wolvetang EJ, Richardson SR, and Faulkner GJ
- Subjects
- Cells, Cultured, DNA Methylation genetics, Embryo, Mammalian metabolism, Germ Cells metabolism, Humans, Induced Pluripotent Stem Cells metabolism, Long Interspersed Nucleotide Elements physiology, Neurons metabolism, Promoter Regions, Genetic genetics, Retroelements genetics, Gene Expression Regulation, Developmental genetics, Long Interspersed Nucleotide Elements genetics, Neurogenesis genetics
- Abstract
The retrotransposon LINE-1 (L1) is a significant source of endogenous mutagenesis in humans. In each individual genome, a few retrotransposition-competent L1s (RC-L1s) can generate new heritable L1 insertions in the early embryo, primordial germ line, and germ cells. L1 retrotransposition can also occur in the neuronal lineage and cause somatic mosaicism. Although DNA methylation mediates L1 promoter repression, the temporal pattern of methylation applied to individual RC-L1s during neurogenesis is unclear. Here, we identified a de novo L1 insertion in a human induced pluripotent stem cell (hiPSC) line via retrotransposon capture sequencing (RC-seq). The L1 insertion was full-length and carried 5' and 3' transductions. The corresponding donor RC-L1 was part of a large and recently active L1 transduction family and was highly mobile in a cultured-cell L1 retrotransposition reporter assay. Notably, we observed distinct and dynamic DNA methylation profiles for the de novo L1 and members of its extended transduction family during neuronal differentiation. These experiments reveal how a de novo L1 insertion in a pluripotent stem cell is rapidly recognized and repressed, albeit incompletely, by the host genome during neurodifferentiation, while retaining potential for further retrotransposition., (Copyright © 2019 Salvador-Palomeque et al.)
- Published
- 2019
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