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Literature DB >> 30340764

Potential epigenetic therapeutics for atherosclerosis treatment.

Ioana Nicorescu¹, Geesje M Dallinga¹, Menno P J de Winther², Erik S G Stroes¹, Mahnoush Bahjat³.

Abstract

Notwithstanding the intense efforts into the understanding and prevention of cardiovascular disease (CVD), its complex pathology remains the leading cause of mortality worldwide. The pivotal role of epigenetic changes in the control of gene expression has been profiled in several diseases, such as cancer and inflammatory disorders. In the last decade, increasing evidence has also linked aberrant epigenetic modulation as a contributor to CVD development. Differential profiles of DNA methylation, histone methylation and acetylation have consistently been observed in tissues and cells (comprising the aortic lesions, vascular endothelium and monocytes) from patients with CVD. This highlights the therapeutic potential of epigenetic drugs for cardiovascular treatment.

Entities: Disease Species

Keywords: Atherosclerosis; DNA methylation; Epigenetic; Epigenetic inhibitors; Histone modification; Immune cells; Inflammation

Mesh：

Substances：

Year: 2018 PMID： 30340764 DOI： 10.1016/j.atherosclerosis.2018.10.006

Source DB: PubMed Journal: Atherosclerosis ISSN： 0021-9150 Impact factor: 5.162

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Cited

12 in total

1. DNA methylome profiling reveals epigenetic regulation of lipoprotein-associated phospholipase A₂ in human vulnerable atherosclerotic plaque.

Authors: Jingjin Li; Xiaoping Zhang; Mengxi Yang; Hang Yang; Ning Xu; Xueqiang Fan; Gang Liu; Xintong Jiang; Jiasai Fan; Lifang Zhang; Hu Zhang; Ying Zhou; Rui Li; Si Gao; Jiangli Jin; Zening Jin; Jingang Zheng; Qiang Tu; Jingyi Ren
Journal: Clin Epigenetics Date: 2021-08-21 Impact factor: 6.551

Review 2. Promising Directions in Atherosclerosis Treatment Based on Epigenetic Regulation Using MicroRNAs and Long Noncoding RNAs.

Authors: Daria Skuratovskaia; Maria Vulf; Aleksandra Komar; Elena Kirienkova; Larisa Litvinova
Journal: Biomolecules Date: 2019-06-11

Review 3. Epigenetics of Bladder Cancer: Where Biomarkers and Therapeutic Targets Meet.

Authors: Victor G Martinez; Ester Munera-Maravilla; Alejandra Bernardini; Carolina Rubio; Cristian Suarez-Cabrera; Cristina Segovia; Iris Lodewijk; Marta Dueñas; Mónica Martínez-Fernández; Jesus Maria Paramio
Journal: Front Genet Date: 2019-11-18 Impact factor: 4.599

Review 4. The Role of Protein SUMOylation in the Pathogenesis of Atherosclerosis.

Authors: Sajad Dehnavi; Mahvash Sadeghi; Peter E Penson; Maciej Banach; Tannaz Jamialahmadi; Amirhossein Sahebkar
Journal: J Clin Med Date: 2019-11-02 Impact factor: 4.241

5. miR-140-5p regulates vascular smooth muscle cell viability, migration and apoptosis by targeting ROBO4 gene expression in atherosclerosis.

Authors: Yi Luo; Yangmin Li; Hong Peng; Yu Zhao
Journal: Mol Med Rep Date: 2021-01-26 Impact factor: 2.952

6. HDAC1 and 2 regulate endothelial VCAM-1 expression and atherogenesis by suppressing methylation of the GATA6 promoter.

Authors: Chengxiu Hu; Kai Peng; Qianqian Wu; Yiying Wang; Xing Fan; Dai-Min Zhang; Anthony G Passerini; ChongXiu Sun
Journal: Theranostics Date: 2021-03-20 Impact factor: 11.556

Potential epigenetic therapeutics for atherosclerosis treatment.

1. DNA methylome profiling reveals epigenetic regulation of lipoprotein-associated phospholipase A₂ in human vulnerable atherosclerotic plaque.

Review 2. Promising Directions in Atherosclerosis Treatment Based on Epigenetic Regulation Using MicroRNAs and Long Noncoding RNAs.

Review 3. Epigenetics of Bladder Cancer: Where Biomarkers and Therapeutic Targets Meet.

Review 4. The Role of Protein SUMOylation in the Pathogenesis of Atherosclerosis.

5. miR-140-5p regulates vascular smooth muscle cell viability, migration and apoptosis by targeting ROBO4 gene expression in atherosclerosis.

6. HDAC1 and 2 regulate endothelial VCAM-1 expression and atherogenesis by suppressing methylation of the GATA6 promoter.

7. The Epigenome in Atherosclerosis.

Review 8. DNA Methylation in Atherosclerosis: A New Perspective.

Review 9. Epigenetic Control of Mitochondrial Function in the Vasculature.

Review 10. Immunometabolism orchestrates training of innate immunity in atherosclerosis.

Potential epigenetic therapeutics for atherosclerosis treatment.

1. DNA methylome profiling reveals epigenetic regulation of lipoprotein-associated phospholipase A2 in human vulnerable atherosclerotic plaque.

Review 2. Promising Directions in Atherosclerosis Treatment Based on Epigenetic Regulation Using MicroRNAs and Long Noncoding RNAs.

Review 3. Epigenetics of Bladder Cancer: Where Biomarkers and Therapeutic Targets Meet.

Review 4. The Role of Protein SUMOylation in the Pathogenesis of Atherosclerosis.

5. miR-140-5p regulates vascular smooth muscle cell viability, migration and apoptosis by targeting ROBO4 gene expression in atherosclerosis.

6. HDAC1 and 2 regulate endothelial VCAM-1 expression and atherogenesis by suppressing methylation of the GATA6 promoter.

7. The Epigenome in Atherosclerosis.

Review 8. DNA Methylation in Atherosclerosis: A New Perspective.

Review 9. Epigenetic Control of Mitochondrial Function in the Vasculature.

Review 10. Immunometabolism orchestrates training of innate immunity in atherosclerosis.

1. DNA methylome profiling reveals epigenetic regulation of lipoprotein-associated phospholipase A₂ in human vulnerable atherosclerotic plaque.