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Identification of epigenetic regulators of fibrotic transformation in cardiac fibroblasts through bulk and single-cell CRISPR screens

by Pelacho, Beatriz , del Valle, Cynthia , Ridley, Paul , Alameda, Daniel , Sayers, Judy , Rabago, Gregorio , Aguado-Alvaro, Laura P , Calleja-Cervantes, Maria Erendira , Narayan, Nisha , Goni-Salaverria, Ainhoa , Esser-Skala, Wolfgang , Huntly, Brian , de Vito, Anna Rosaria , Gross, Torsten , Fortelny, Nikolaus , Cudini, Juliana , Garitano, Nerea , Marchese, Francesco , Alignani, Diego , Gonzalez-Miqueo, Arantxa , Lara-Astiaso, David , Zazpe, Jon , Martinez, Sonia , Taylor-King, Jake P , Mendieta, Julen , Martinez, Laura

in Cell Biology

2025

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Identification of epigenetic regulators of fibrotic transformation in cardiac fibroblasts through bulk and single-cell CRISPR screens

in Cell Biology

2025

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Identification of epigenetic regulators of fibrotic transformation in cardiac fibroblasts through bulk and single-cell CRISPR screens

in Cell Biology

2025

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Paper

Identification of epigenetic regulators of fibrotic transformation in cardiac fibroblasts through bulk and single-cell CRISPR screens

Pelacho, Beatriz,

del Valle, Cynthia,

Ridley, Paul,

Alameda, Daniel,

Sayers, Judy,

Rabago, Gregorio,

Aguado-Alvaro, Laura P,

Calleja-Cervantes, Maria Erendira,

Narayan, Nisha,

Goni-Salaverria, Ainhoa,

Esser-Skala, Wolfgang,

Huntly, Brian,

de Vito, Anna Rosaria,

Gross, Torsten,

Fortelny, Nikolaus,

Cudini, Juliana,

Garitano, Nerea,

Marchese, Francesco,

Alignani, Diego,

Gonzalez-Miqueo, Arantxa,

Lara-Astiaso, David,

Zazpe, Jon,

Martinez, Sonia,

Taylor-King, Jake P,

Mendieta, Julen,

Martinez, Laura

2025

Overview

Cardiac fibrosis is mediated by the persistent activity of myofibroblasts, which differentiate from resident cardiac fibroblasts in response to tissue damage and stress signals. The signaling pathways and transcription factors regulating fibrotic transformation have been thoroughly studied. In contrast, the roles of chromatin factors in myofibroblast differentiation and their contribution to pathogenic cardiac fibrosis remain poorly understood. Here, we combined bulk and single-cell CRISPR screens to characterize the roles of chromatin factors in the fibrotic transformation of primary cardiac fibroblasts. We uncover strong regulators of fibrotic states including Srcap and Kat5 chromatin remodelers. We confirm that these factors are required for functional processes underlying fibrosis including collagen synthesis and cell contractility. Using chromatin profiling in perturbed cardiac fibroblasts, we demonstrate that pro-fibrotic chromatin complexes facilitate the activity of well-characterized pro-fibrotic transcription factors. Finally, we show that KAT5 inhibition alleviates fibrotic responses in patient-derived human fibroblasts.

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Publisher

Cold Spring Harbor Laboratory

Subject

Cell Biology