Cohesin controls X chromosome structure remodeling and X-reactivation during mouse iPSC-reprogramming
Publication date
2023-01-24
Authors
Generoso, Serena F.
Neguembor, Maria Victoria
Hershberg, Elliot A.
Sadreyev, Ruslan I.
Kurimoto, Kazuki
Yabuta, Yukihiro
Ricci, Raffaele
Audergon, Pauline
Bauer, Moritz
Saitou, Mitinori
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Advisors
Supervisors
Document Type
Article
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cc_by_nc_nd
Abstract
Reactivation of the inactive X chromosome is a hallmark epigenetic event during reprogramming of mouse female somatic cells to induced pluripotent stem cells (iPSCs). This involves global structural remodeling from a condensed, heterochromatic into an open, euchromatic state, thereby changing a transcriptionally inactive into an active chromosome. Despite recent advances, very little is currently known about the molecular players mediating this process and how this relates to iPSC-reprogramming in general. To gain more insight, here we perform a RNAi-based knockdown screen during iPSC-reprogramming of mouse fibroblasts. We discover factors important for X chromosome reactivation (XCR) and iPSC-reprogramming. Among those, we identify the cohesin complex member SMC1a as a key molecule with a specific function in XCR, as its knockdown greatly affects XCR without interfering with iPSC-reprogramming. Using super-resolution microscopy, we find SMC1a to be preferentially enriched on the active compared with the inactive X chromosome and that SMC1a is critical for the decompacted state of the active X. Specifically, depletion of SMC1a leads to contraction of the active X both in differentiated and in pluripotent cells, where it normally is in its most open state. In summary, we reveal cohesin as a key factor for remodeling of the X chromosome from an inactive to an active structure and that this is a critical step for XCR during iPSC-reprogramming.
Keywords
cellular reprogramming, cohesin, X chromosome, X-inactivation, X-reactivation, General
Citation
Generoso, S F, Neguembor, M V, Hershberg, E A, Sadreyev, R I, Kurimoto, K, Yabuta, Y, Ricci, R, Audergon, P, Bauer, M, Saitou, M, Hochedlinger, K, Beliveau, B J, Cosma, M P, Lee, J T & Payer, B 2023, 'Cohesin controls X chromosome structure remodeling and X-reactivation during mouse iPSC-reprogramming', Proceedings of the National Academy of Sciences of the United States of America, vol. 120, no. 4, e2213810120. https://doi.org/10.1073/pnas.2213810120