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PPARs in atherosclerosis: The spatial and temporal features from mechanism to druggable targets

炎症 可药性 脂肪条纹 电池类型 过氧化物酶体增殖物激活受体 生物 机制(生物学) 血管平滑肌 癌症研究 受体 药物开发 氧化应激 药理学 细胞 生物信息学 医学 内科学 药品 内分泌学 免疫学 平滑肌 胆固醇 生物化学 基因 哲学 认识论
作者
Yi Zheng,Mingyan Shao,Yanfei Zheng,Wenlong Sun,Si Qin,Ziwei Sun,Linghui Zhu,Yuanyuan Guan,Qi Wang,Yong Wang,Lingru Li
出处
期刊:Journal of Advanced Research [Elsevier BV]
卷期号:69: 225-244 被引量:32
标识
DOI:10.1016/j.jare.2024.03.020
摘要

BACKGROUND: Atherosclerosis is a chronic and complex disease caused by lipid disorder, inflammation, and other factors. It is closely related to cardiovascular diseases, the chief cause of death globally. Peroxisome proliferator-activated receptors (PPARs) are valuable anti-atherosclerosis targets that showcase multiple roles at different pathological stages of atherosclerosis and for cell types at different tissue sites. AIM OF REVIEW: Considering the spatial and temporal characteristics of the pathological evolution of atherosclerosis, the roles and pharmacological and clinical studies of PPARs were summarized systematically and updated under different pathological stages and in different vascular cells of atherosclerosis. Moreover, selective PPAR modulators and PPAR-pan agonists can exert their synergistic effects meanwhile reducing the side effects, thereby providing novel insight into future drug development for precise spatial-temporal therapeutic strategy of anti-atherosclerosis targeting PPARs. KEY SCIENTIFIC: Concepts of Review: Based on the spatial and temporal characteristics of atherosclerosis, we have proposed the importance of stage- and cell type-dependent precision therapy. Initially, PPARs improve endothelial cells' dysfunction by inhibiting inflammation and oxidative stress and then regulate macrophages' lipid metabolism and polarization to improve fatty streak. Finally, PPARs reduce fibrous cap formation by suppressing the proliferation and migration of vascular smooth muscle cells (VSMCs). Therefore, research on the cell type-specific mechanisms of PPARs can provide the foundation for space-time drug treatment. Moreover, pharmacological studies have demonstrated that several drugs or compounds can exert their effects by the activation of PPARs. Selective PPAR modulators (that specifically activate gene subsets of PPARs) can exert tissue and cell-specific effects. Furthermore, the dual- or pan-PPAR agonist could perform a better role in balancing efficacy and side effects. Therefore, research on cells/tissue-specific activation of PPARs and PPAR-pan agonists can provide the basis for precision therapy and drug development of PPARs.
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