The chromatin remodeling factor CHD7 controls cerebellar development by regulating reelin expression
Danielle E. Whittaker, … , Cathy Fernandes, M. Albert Basson
Danielle E. Whittaker, … , Cathy Fernandes, M. Albert Basson
Published February 6, 2017
Citation Information: J Clin Invest. 2017;127(3):874-887. https://doi.org/10.1172/JCI83408.
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Research Article Development Neuroscience

The chromatin remodeling factor CHD7 controls cerebellar development by regulating reelin expression

Abstract

The mechanisms underlying the neurodevelopmental deficits associated with CHARGE syndrome, which include cerebellar hypoplasia, developmental delay, coordination problems, and autistic features, have not been identified. CHARGE syndrome has been associated with mutations in the gene encoding the ATP-dependent chromatin remodeler CHD7. CHD7 is expressed in neural stem and progenitor cells, but its role in neurogenesis during brain development remains unknown. Here we have shown that deletion of Chd7 from cerebellar granule cell progenitors (GCps) results in reduced GCp proliferation, cerebellar hypoplasia, developmental delay, and motor deficits in mice. Genome-wide expression profiling revealed downregulated expression of the gene encoding the glycoprotein reelin (Reln) in Chd7-deficient GCps. Recessive RELN mutations have been associated with severe cerebellar hypoplasia in humans. We found molecular and genetic evidence that reductions in Reln expression contribute to GCp proliferative defects and cerebellar hypoplasia in GCp-specific Chd7 mouse mutants. Finally, we showed that CHD7 is necessary for maintaining an open, accessible chromatin state at the Reln locus. Taken together, this study shows that Reln gene expression is regulated by chromatin remodeling, identifies CHD7 as a previously unrecognized upstream regulator of Reln, and provides direct in vivo evidence that a mammalian CHD protein can control brain development by modulating chromatin accessibility in neuronal progenitors.

Authors

Danielle E. Whittaker, Kimberley L.H. Riegman, Sahrunizam Kasah, Conor Mohan, Tian Yu, Blanca Pijuan Sala, Husam Hebaishi, Angela Caruso, Ana Claudia Marques, Caterina Michetti, María Eugenia Sanz Smachetti, Apar Shah, Mara Sabbioni, Omer Kulhanci, Wee-Wei Tee, Danny Reinberg, Maria Luisa Scattoni, Holger Volk, Imelda McGonnell, Fiona C. Wardle, Cathy Fernandes, M. Albert Basson

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Figure 7

CHD7 deletion alters chromatin organization and reduces DNA accessibility at the Reln locus.

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CHD7 deletion alters chromatin organization and reduces DNA accessibilit...
(A) Heatmaps representing all significantly changed ATAC-Seq peaks ± 500 bp between control (CTRL) and cko (KO) GCps (n = 3). Note reduced DNA accessibility in KO samples for the majority of peaks (CTRL/KO peaks), with a few showing increased DNA accessibility in the KO (KO/CTRL peaks). (B) DNase-Seq (purple) (45) and ATAC-Seq reads mapped over the Reln gene in control (CTRL ATAC-Seq, green) and cko (KO ATAC-Seq, orange) P7 GCps. Peaks are indicative of regions of “open” chromatin with high DNA accessibility. Blue stars indicate ATAC-Seq peaks that are significantly different in CTRL and KO cells. (C) Visualization of normalized CTRL (green) and KO ATAC-Seq (orange) reads, and H3K4me1 ChIP-Seq reads from WT GCps (red) that mapped to intron 8, the Reln transcriptional start site (TSS), and a region 127 kb upstream of the Reln TSS. Note significantly reduced DNA accessibility at the intronic and upstream regions in KO cells compared with CTRL cells.