Oral pathogen aggravates atherosclerosis by inducing smooth muscle cell apoptosis and repressing macrophage efferocytosis.
Hanyu XieZiyue QinZiji LingXiao GeHang ZhangShuyu GuoLai-Kui LiuKai ZhengHongbing JiangRongyao XuPublished in: International journal of oral science (2023)
Periodontitis imparting the increased risk of atherosclerotic cardiovascular diseases is partially due to the immune subversion of the oral pathogen, particularly the Porphyromonas gingivalis (P. gingivalis), by inducing apoptosis. However, it remains obscure whether accumulated apoptotic cells in P. gingivalis-accelerated plaque formation are associated with impaired macrophage clearance. Here, we show that smooth muscle cells (SMCs) have a greater susceptibility to P. gingivalis-induced apoptosis than endothelial cells through TLR2 pathway activation. Meanwhile, large amounts of miR-143/145 in P.gingivalis-infected SMCs are extracellularly released and captured by macrophages. Then, these miR-143/145 are translocated into the nucleus to promote Siglec-G transcription, which represses macrophage efferocytosis. By constructing three genetic mouse models, we further confirm the in vivo roles of TLR2 and miR-143/145 in P. gingivalis-accelerated atherosclerosis. Therapeutically, we develop P.gingivalis-pretreated macrophage membranes to coat metronidazole and anti-Siglec-G antibodies for treating atherosclerosis and periodontitis simultaneously. Our findings extend the knowledge of the mechanism and therapeutic strategy in oral pathogen-associated systemic diseases.
Keyphrases
- induced apoptosis
- cell proliferation
- endoplasmic reticulum stress
- cardiovascular disease
- long non coding rna
- smooth muscle
- oxidative stress
- adipose tissue
- endothelial cells
- long noncoding rna
- cell death
- cell cycle arrest
- signaling pathway
- inflammatory response
- immune response
- healthcare
- toll like receptor
- mouse model
- candida albicans
- coronary artery disease
- transcription factor
- genome wide
- copy number
- vascular endothelial growth factor