Cinzia Cinesi scite author profile

CAG/CTG repeat expansions cause over 13 neurological diseases that remain without a cure. Because longer tracts cause more severe phenotypes, contracting them may provide a therapeutic avenue. No currently known agent can specifically generate contractions. Using a GFP-based chromosomal reporter that monitors expansions and contractions in the same cell population, here we find that inducing double-strand breaks within the repeat tract causes instability in both directions. In contrast, the CRISPR-Cas9 D10A nickase induces mainly contractions independently of single-strand break repair. Nickase-induced contractions depend on the DNA damage response kinase ATM, whereas ATR inhibition increases both expansions and contractions in a MSH2- and XPA-dependent manner. We propose that DNA gaps lead to contractions and that the type of DNA damage present within the repeat tract dictates the levels and the direction of CAG repeat instability. Our study paves the way towards deliberate induction of CAG/CTG repeat contractions in vivo.

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GFP Reporters to Monitor Instability and Expression of Expanded CAG/CTG Repeats

Cinesi

Yang

Dion

2019

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Expanded CAG/CTG repeats resist gene silencing mediated by targeted epigenome editing

Yang

Borgeaud

Buřičová

et al. 2021

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Expanded CAG/CTG repeat disorders affect over 1 in 2500 individuals worldwide. Potential therapeutic avenues include gene silencing and modulation of repeat instability. However, there are major mechanistic gaps in our understanding of these processes, which prevent the rational design of an efficient treatment. To address this, we developed a novel system, ParB/ANCHOR-mediated Inducible Targeting (PInT), in which any protein can be recruited at will to a GFP reporter containing an expanded CAG/CTG repeat. Previous studies have implicated the histone deacetylase HDAC5 and the DNA methyltransferase DNMT1 as modulators of repeat instability via mechanisms that are not fully understood. Using PInT, we found no evidence that HDAC5 or DNMT1 modulate repeat instability upon targeting to the expanded repeat, suggesting that their effect is independent of local chromatin structure. Unexpectedly, we found that expanded CAG/CTG repeats reduce the effectiveness of gene silencing mediated by targeting HDAC5 and DNMT1. The repeat-length effect in gene silencing by HDAC5 was abolished by a small molecule inhibitor of HDAC3. Our results have important implications on the design of epigenome editing approaches for expanded CAG/CTG repeat disorders. PInT is a versatile synthetic system to study the effect of any sequence of interest on epigenome editing.

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Expanded CAG/CTG Repeats Resist Gene Silencing Mediated by Targeted Epigenome Editing

Yang

Borgeaud

Aeschbach

et al. 2018

Preprint

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Epigenome editing is an attractive way to manipulate gene expression. However, editing efficiencies depend on the DNA sequence context in a manner that remains poorly understood.Here we developed a novel system in which any protein can be recruited at will to a GFP reporter.We named it ParB/ANCHOR-mediated Inducible Targeting (PInT). Using PInT, we tested how CAG/CTG repeat size affects the ability of histone deacetylases to modulate gene expression. We found that repeat expansion reduces the effectiveness of silencing brought about by HDAC5targeting. This repeat-length specificity was abolished when we inhibited HDAC3 activity. Our data guide the use of these histone deacetylases in manipulating chromatin. PInT can be adapted to study the effect of virtually any sequence on epigenome editing.

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Author Reply to Peer Reviews of Expanded CAG/CTG Repeats Resist Gene Silencing Mediated by Targeted Epigenome Editing

Dion¹,

Baubec²,

Cinesi³

et al. 2020

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Cinzia Cinesi

Contracting CAG/CTG repeats using the CRISPR-Cas9 nickase

GFP Reporters to Monitor Instability and Expression of Expanded CAG/CTG Repeats

Expanded CAG/CTG repeats resist gene silencing mediated by targeted epigenome editing

Expanded CAG/CTG Repeats Resist Gene Silencing Mediated by Targeted Epigenome Editing

Author Reply to Peer Reviews of Expanded CAG/CTG Repeats Resist Gene Silencing Mediated by Targeted Epigenome Editing

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