Proteomics

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Inner nuclear protein Matrin-3 coordinates cell differentiation by stabilizing chromatin architecture


ABSTRACT: Precise control of gene expression during differentiation relies on the interplay of chromatin and nuclear structure. Despite an established contribution of nuclear membrane proteins to developmental gene regulation, little is known regarding the role of inner nuclear proteins. Here we demonstrate that loss of the nuclear scaffolding protein Matrin-3 (Matr3) in erythroid cells leads to morphological and gene expression changes characteristic of accelerated maturation, as well as broad alterations in chromatin organization similar to those accompanying differentiation. Matr3 protein interacts with CTCF and the cohesin complex, and its loss perturbs their occupancy at a subset of sites. Destabilization of CTCF and cohesin binding correlates with altered transcription and accelerated differentiation. This association is conserved in embryonic stem cells. Our findings indicate Matr3 negatively affects cell fate transitions and demonstrate that a critical inner nuclear protein impacts occupancy of architectural factors, culminating in broad effects on chromatin organization and cell differentiation.

INSTRUMENT(S): LTQ Orbitrap Velos

ORGANISM(S): Mus Musculus (mouse)

TISSUE(S): Erythrocyte, Cell Culture

DISEASE(S): Acute Leukemia

SUBMITTER: Hye Ji Cha  

LAB HEAD: Stuart H Orkin

PROVIDER: PXD028867 | Pride | 2021-11-11

REPOSITORIES: Pride

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Publications

Inner nuclear protein Matrin-3 coordinates cell differentiation by stabilizing chromatin architecture.

Cha Hye Ji HJ   Uyan Özgün Ö   Kai Yan Y   Liu Tianxin T   Zhu Qian Q   Tothova Zuzana Z   Botten Giovanni A GA   Xu Jian J   Yuan Guo-Cheng GC   Dekker Job J   Orkin Stuart H SH  

Nature communications 20211029 1


Precise control of gene expression during differentiation relies on the interplay of chromatin and nuclear structure. Despite an established contribution of nuclear membrane proteins to developmental gene regulation, little is known regarding the role of inner nuclear proteins. Here we demonstrate that loss of the nuclear scaffolding protein Matrin-3 (Matr3) in erythroid cells leads to morphological and gene expression changes characteristic of accelerated maturation, as well as broad alteration  ...[more]

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