Issue |
Med Sci (Paris)
Volume 40, Number 12, Décembre 2024
Épigénétique : développement et destin cellulaire
|
|
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Page(s) | 892 - 903 | |
Section | M/S Revues | |
DOI | https://doi.org/10.1051/medsci/2024177 | |
Published online | 20 December 2024 |
Reprogrammation, lignée germinale et empreinte génomique parentale
Epigenetic reprogramming, germline and genomic imprinting
IGMM, Univ Montpellier, CNRS, Montpellier, France
*
maud.borensztein@igmm.cnrs.fr
Le maintien de l’identité cellulaire par l’épigénome est crucial pour le développement d’un individu. Les marques chromatiniennes assurent la stabilité de l’expression génique. La reprogrammation épigénétique est un phénomène naturel au cours du développement des mammifères, en particulier lors de l’émergence de la lignée germinale. Les cellules germinales primordiales (PGC) subissent un profond remodelage de la chromatine, comprenant une déméthylation globale de l’ADN et l’effacement des empreintes parentales. Cette revue introduit les notions de reprogrammation épigénétique, y compris sa découverte et ses étapes principales, la lignée germinale murine qui inclut ses changements transcriptionnels et chromatiniens, ainsi que l’empreinte génomique parentale, ses mécanismes et son importance chez l’homme.
Abstract
The memory of cellular identity is crucial for the correct development of an individual and is maintained throughout life by the epigenome. Chromatin marks, such as DNA methylation and histone modifications, ensure the stability of gene expression programmes over time and through cell division. Loss of these marks can lead to severe pathologies, including cancer and developmental syndromes. However, reprogramming of cellular identity is also a natural phenomenon that occurs early in mammalian development, particularly in the germ line, which enables the production of mature and functional gametes. The germ line transmits genetic and epigenetic information to the next generation, contributing to the survival of the species. Primordial germ cells (PGCs) undergo extensive chromatin remodelling, including global DNA demethylation and erasure of the parental imprints. This review introduces the concept of epigenetic reprogramming, its discovery and key steps, as well as the transcriptional and chromatin changes that accompany germ cell formation in mice. Finally, we discuss the epigenetic mechanisms of genomic imprinting, its discovery, regulation and relevance to human disease.
© 2024 médecine/sciences – Inserm
Article publié sous les conditions définies par la licence Creative Commons Attribution License CC-BY (https://creativecommons.org/licenses/by/4.0), qui autorise sans restrictions l’utilisation, la diffusion, et la reproduction sur quelque support que ce soit, sous réserve de citation correcte de la publication originale.
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