The critical role of epigenetic mechanism in PM2.5-induced cardiovascular diseases
Qinglin Sun, Xiaoke Ren, Zhiwei Sun, Junchao Duan
Abstract
Abstract Cardiovascular disease (CVD) has become the leading cause of death worldwide, which seriously threatens human life and health. Epidemiological studies have confirmed the occurrence and development of CVD are closely related to air pollution. In particular, fine particulate matter (PM 2.5 ) is recognized as an important environmental factor contributing to increased morbidity, mortality and hospitalization rates among adults and children. However, the underlying mechanism by which PM 2.5 promotes CVD development remains unclear. With the development of epigenetics, recent studies have shown that PM 2.5 exposure may induce or aggravate CVD through epigenetic changes. In order to better understand the potential mechanisms, this paper reviews the epigenetic changes of CVD caused by PM 2.5 . We summarized the epigenetic mechanisms of PM 2.5 causing cardiovascular pathological damage and functional changes, mainly involving DNA methylation, non-coding RNA, histone modification and chromosome remodeling. It will provide important clues for exploring the biological mechanisms affecting cardiovascular health.