Literature DB >> 35471149

Cohesin-dependence of neuronal gene expression relates to chromatin loop length.

Lesly Calderon1,2, Felix D Weiss2, Jonathan A Beagan3, Marta S Oliveira1,2, Radina Georgieva1,2, Yi-Fang Wang1,2, Thomas S Carroll2, Gopuraja Dharmalingam1,2, Wanfeng Gong3, Kyoko Tossell2, Vincenzo de Paola2, Chad Whilding1,2, Mark A Ungless1,2, Amanda G Fisher1,2, Jennifer E Phillips-Cremins3,4,5, Matthias Merkenschlager2.   

Abstract

Cohesin and CTCF are major drivers of 3D genome organization, but their role in neurons is still emerging. Here, we show a prominent role for cohesin in the expression of genes that facilitate neuronal maturation and homeostasis. Unexpectedly, we observed two major classes of activity-regulated genes with distinct reliance on cohesin in mouse primary cortical neurons. Immediate early genes (IEGs) remained fully inducible by KCl and BDNF, and short-range enhancer-promoter contacts at the IEGs Fos formed robustly in the absence of cohesin. In contrast, cohesin was required for full expression of a subset of secondary response genes characterized by long-range chromatin contacts. Cohesin-dependence of constitutive neuronal genes with key functions in synaptic transmission and neurotransmitter signaling also scaled with chromatin loop length. Our data demonstrate that key genes required for the maturation and activation of primary cortical neurons depend on cohesin for their full expression, and that the degree to which these genes rely on cohesin scales with the genomic distance traversed by their chromatin contacts.
© 2022, Calderon et al.

Entities:  

Keywords:  3D chromatin organization; chromosomes; cohesin; gene expression; mouse; neurons; neuroscience

Mesh:

Substances:

Year:  2022        PMID: 35471149      PMCID: PMC9106336          DOI: 10.7554/eLife.76539

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.713


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