AI Article Synopsis
- Epigenetically changed vascular smooth muscle cells contribute to diseases characterized by narrowing of blood vessels (stenosis), and this study investigates the roles of specific histone modifications in regulating gene activity.
- The polycomb protein EED, traditionally known for repressing genes, was found to unexpectedly activate the pro-proliferative gene cyclinD1 when overexpressed in these cells, despite its usual gene-repressing function.
- EED works together with another protein, BRD4, to enhance gene activation and repression in a cooperative manner, providing new insights into potential epigenetic treatments for conditions like neointimal pathology.
Article Abstract
Epigenetically switched, proliferative vascular smooth muscle cells (SMCs) form neointima, engendering stenotic diseases. Histone-3 lysine-27 trimethylation (H3K27me3) and acetylation (H3K27ac) marks are associated with gene repression and activation, respectively. The polycomb protein embryonic ectoderm development (EED) reads H3K27me3 and also enhances its deposition, hence is a canonical gene repressor. However, herein we found an unexpected role for EED in activating the pro-proliferative gene (cyclinD1). EED overexpression in SMCs increased mRNA, seemingly contradicting its gene-repressing function. However, consistently, EED co-immunoprecipitated with gene-activating H3K27ac reader BRD4, and they co-occupied at both mitogen-activated and mitogen-repressed ( anti-proliferative gene), as indicated by chromatin immunoprecipitation qPCR. These results were abolished by an inhibitor of either the EED/H3K27me3 or BRD4/H3K27ac reader function. In accordance, elevating BRD4 increased H3K27me3. , while EED was upregulated in rat and human neointimal lesions, selective EED inhibition abated angioplasty-induced neointima and reduced cyclinD1 in rat carotid arteries. Thus, results uncover a previously unknown role for EED in activation, likely via its cooperativity with BRD4 that enhances each other's reader function; i.e., activating pro-proliferative while repressing anti-proliferative . As such, this study confers mechanistic implications for the epigenetic intervention of neointimal pathology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10009644 | PMC |
| http://dx.doi.org/10.1016/j.omtn.2023.02.024 | DOI Listing |
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