Spatially coordinated heterochromatinization of long synaptic genes in fragile X syndrome

Short tandem repeat (STR) instability causes transcriptional silencing in several repeat expansion disorders. In fragile X syndrome (FXS), mutation-length expansion of a CGG STR represses FMR1 via local DNA methylation. Here, we find megabase-scale H3K9me3 domains on autosomes and encompassing FMR1...

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Published in:Cell 2023-12, Vol.186 (26), p.5840-5858.e36
Main Authors: Malachowski, Thomas, Chandradoss, Keerthivasan Raanin, Boya, Ravi, Zhou, Linda, Cook, Ashley L, Su, Chuanbin, Pham, Kenneth, Haws, Spencer A, Kim, Ji Hun, Ryu, Han-Seul, Ge, Chunmin, Luppino, Jennifer M, Nguyen, Son C, Titus, Katelyn R, Gong, Wanfeng, Wallace, Owen, Joyce, Eric F, Wu, Hao, Rojas, Luis Alejandro, Phillips-Cremins, Jennifer E
Format: Article
Language:English
Subjects:
DNA Methylation
Fragile X Mental Retardation Protein - genetics
Fragile X Mental Retardation Protein - metabolism
Fragile X Syndrome - genetics
Fragile X Syndrome - metabolism
Humans
Mutation
Trinucleotide Repeat Expansion
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Summary:Short tandem repeat (STR) instability causes transcriptional silencing in several repeat expansion disorders. In fragile X syndrome (FXS), mutation-length expansion of a CGG STR represses FMR1 via local DNA methylation. Here, we find megabase-scale H3K9me3 domains on autosomes and encompassing FMR1 on the X chromosome in FXS patient-derived iPSCs, iPSC-derived neural progenitors, EBV-transformed lymphoblasts, and brain tissue with mutation-length CGG expansion. H3K9me3 domains connect via inter-chromosomal interactions and demarcate severe misfolding of TADs and loops. They harbor long synaptic genes replicating at the end of S phase, replication-stress-induced double-strand breaks, and STRs prone to stepwise somatic instability. CRISPR engineering of the mutation-length CGG to premutation length reverses H3K9me3 on the X chromosome and multiple autosomes, refolds TADs, and restores gene expression. H3K9me3 domains can also arise in normal-length iPSCs created with perturbations linked to genome instability, suggesting their relevance beyond FXS. Our results reveal Mb-scale heterochromatinization and trans interactions among loci susceptible to instability.
ISSN:0092-8674
1097-4172
DOI:10.1016/j.cell.2023.11.019