The methyltransferase SETDB1 regulates a large neuron-specific topological chromatin domain.

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2017

Nat Genet. 2017 Aug;49(8):1239-1250. doi: 10.1038/ng.3906. Epub 2017 Jul 3.

The methyltransferase SETDB1 regulates a large neuron-specific topological chromatin domain.

Y Jiang;YE Loh;P Rajarajan;T Hirayama;W Liao;BS Kassim;B Javidfar;BJ Hartley;L Kleofas;RB Park;B Labonte;SM Ho;S Chandrasekaran;C Do;BR Ramirez;CJ Peter;JT C W;BM Safaie;H Morishita;P Roussos;EJ Nestler;A Schaefer;B Tycko;KJ Brennand;T Yagi;L Shen;S Akbarian

Icahn School of Medicine at Mount Sinai, New York, USA. Graduate School of Frontier Biosciences, Osaka University, Suita, Japan. New York Genome Center; Columbia University, New York; James J. Peters Virginia Medical Center, New York, USA.

Service type: Knockout mice

Abstract

We report locus-specific disintegration of megabase-scale chromosomal conformations in brain after neuronal ablation of Setdb1 (also known as Kmt1e; encodes a histone H3 lysine 9 methyltransferase), including a large topologically associated 1.2-Mb domain conserved in humans and mice that encompasses >70 genes at the clustered protocadherin locus (hereafter referred to as cPcdh). The cPcdh topologically associated domain (TADcPcdh) in neurons from mutant mice showed abnormal accumulation of the transcriptional regulator and three-dimensional (3D) genome organizer CTCF at cryptic binding sites, in conjunction with DNA cytosine hypomethylation, histone hyperacetylation and upregulated expression. Genes encoding stochastically expressed protocadherins were transcribed by increased numbers of cortical neurons, indicating relaxation of single-cell constraint. SETDB1-dependent loop formations bypassed 0.2-1 Mb of linear genome and radiated from the TADcPcdh fringes toward cis-regulatory sequences within the cPcdh locus, counterbalanced shorter-range facilitative promoter-enhancer contacts and carried loop-bound polymorphisms that were associated with genetic risk for schizophrenia. We show that the SETDB1 repressor complex, which involves multiple KRAB zinc finger proteins, shields neuronal genomes from excess CTCF binding and is critically required for structural maintenance of TADcPcdh.

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