Chromatin-Associated Membraneless Organelles in Regulation of Cellular Differentiation

Overview

Journal Stem Cell Reports

Publisher Cell Press

Specialty Cell Biology

Date 2020 Nov 20

PMID 33217325

Citations 14

Authors

Markus Grosch

Sebastian Ittermann

Dmitry Shaposhnikov

Micha Drukker

Affiliations

Soon will be listed here.

Abstract

Membrane-free intracellular biocondensates are enclosures of proteins and nucleic acids that form by phase separation. Extensive ensembles of nuclear "membraneless organelles" indicate their involvement in genome regulation. Indeed, nuclear bodies have been linked to regulation of gene expression by formation of condensates made of chromatin and RNA processing factors. Important questions pertain to the involvement of membraneless organelles in determining cell identity through their cell-type-specific composition and function. Paraspeckles provide a prism to these questions because they exhibit striking cell-type-specific patterns and since they are crucial in embryogenesis. Here, we outline known interactions between paraspeckles and chromatin, and postulate how such interactions may be important in regulation of cell fate transitions. Moreover, we propose long non-coding RNAs (lncRNAs) as candidates for similar regulation because many form foci that resemble biocondensates and exhibit dynamic patterns during differentiation. Finally, we outline approaches that could ascertain how chromatin-associated membraneless organelles regulate cellular differentiation.

Citing Articles

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