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DNA replication fork speed underlies cell fate changes and promotes reprogramming

by Pontabry, Julien , Fiorentino, Jonathan , Ji, Fei , Sadreyev, Ruslan I. , Nakatani, Tsunetoshi , Whetstine, Johnathan R. , Altamirano-Pacheco, Luis , Arguello Pascualli, Paola Y. , Scialdone, Antonio , Torres-Padilla, Maria-Elena , Ruiz-Morales, Elias R. , Tokoro, Mikiko , Mahammadov, Elmir , Yamagata, Kazuo , Hatano, Yu , Lin, Jiangwei , Ettinger, Andreas , Chakraborty, Damayanti , Van Rechem, Capucine

in 631/136 / 631/136/532 / 631/208 / 631/337/176 / Agriculture / Animal Genetics and Genomics / Animals / Biomedical and Life Sciences / Biomedicine / Cancer Research / Cell Differentiation - genetics / Cellular Reprogramming - genetics / DNA Replication - genetics / Embryo, Mammalian / Embryonic Development - genetics / Gene Function / Human Genetics / Mice / Pluripotent Stem Cells

2022

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2022

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2022

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Journal Article

DNA replication fork speed underlies cell fate changes and promotes reprogramming

Pontabry, Julien,

Fiorentino, Jonathan,

Ji, Fei,

Sadreyev, Ruslan I.,

Nakatani, Tsunetoshi,

Whetstine, Johnathan R.,

Altamirano-Pacheco, Luis,

Arguello Pascualli, Paola Y.,

Scialdone, Antonio,

Torres-Padilla, Maria-Elena,

Ruiz-Morales, Elias R.,

Tokoro, Mikiko,

Mahammadov, Elmir,

Yamagata, Kazuo,

Hatano, Yu,

Lin, Jiangwei,

Ettinger, Andreas,

Chakraborty, Damayanti,

Van Rechem, Capucine

2022

Overview

Totipotency emerges in early embryogenesis, but its molecular underpinnings remain poorly characterized. In the present study, we employed DNA fiber analysis to investigate how pluripotent stem cells are reprogrammed into totipotent-like 2-cell-like cells (2CLCs). We show that totipotent cells of the early mouse embryo have slow DNA replication fork speed and that 2CLCs recapitulate this feature, suggesting that fork speed underlies the transition to a totipotent-like state. 2CLCs emerge concomitant with DNA replication and display changes in replication timing (RT), particularly during the early S-phase. RT changes occur prior to 2CLC emergence, suggesting that RT may predispose to gene expression changes and consequent reprogramming of cell fate. Slowing down replication fork speed experimentally induces 2CLCs. In vivo, slowing fork speed improves the reprogramming efficiency of somatic cell nuclear transfer. Our data suggest that fork speed regulates cellular plasticity and that remodeling of replication features leads to changes in cell fate and reprogramming. Totipotent cells in mouse embryos and 2-cell-like cells have slow DNA replication fork speed. Perturbations that slow replication fork speed promote 2-cell-like cell emergence and improve somatic cell nuclear transfer reprogramming and formation of induced pluripotent stem cell colonies.

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Publisher

Nature Publishing Group US

Subject

/ 631/208

/ Animal Genetics and Genomics

/ Animals