PCSK9 expression in fibrous cap possesses a marker for rupture in advanced plaque

PCSK9 医学 纤维帽 动脉内膜切除术 免疫印迹 基因敲除 免疫荧光 颈动脉内膜切除术 共域化 血管平滑肌 病理 细胞生物学 低密度脂蛋白受体 心脏病学 内科学 抗体 生物 狭窄 免疫学 基因 胆固醇 脂蛋白 平滑肌 生物化学
作者
Yingying Zhang,Dongwei Dai,Shuang Geng,Chenbin Rong,Rong Zou,Xiaochang Leng,Jianping Xiang,Jianmin Liu,Jing Ding
出处
期刊:Vascular Medicine [SAGE Publishing]
被引量:1
标识
DOI:10.1177/1358863x241252370
摘要

Background: To date, PCSK9 inhibitors are well known for eliminating cardiac and cerebral artery ischemia events by lowering the serum lipid level. However, the pathophysiological value of in-plaque PCSK9 expression is still unclear. Methods: Advanced plaques removed by carotid endarterectomy were sectioned and stained to identify the PCSK9 expression pattern and its co-expression with rupture-relevant markers. To investigate the correlation of PCSK9 expression with regional blood shear flow, hemodynamic characteristics were analyzed using computational fluid dynamics, and representative parameters were compared between PCSK9 positive and negative staining plaques. To explore this phenomenon in vitro, human aortic vascular smooth muscle cells were used to overexpress and knock down PCSK9. The impacts of PCSK9 modulations on mechanical sensor activity were testified by western blot and immunofluorescence. Real-time polymerase chain reaction was used to evaluate the transcription levels of downstream rupture-prone effectors. Results: PCSK9 distribution in plaque preferred cap and shoulder regions, residing predominantly in smooth muscle actin-positive cells. Cap PCSK9 expression correlated with fibrous cap thickness negatively and co-expressed with MMP-9, both pointing to the direction of plaque rupture. A hemodynamic profile indicated a rupture-prone feature of cap PCSK9 expression. In vitro, overexpression and knockdown of PCSK9 in human aortic vascular smooth muscle cells has positive modulation on mechanical sensor Yes-associated protein 1 (YAP) activity and transcription levels of its downstream rupture-prone effectors. Serial section staining verified in situ colocalization among PCSK9, YAP, and downstream effectors. Conclusions: Cap PCSK9 possesses a biomarker for rupture risk, and its modulation may lead to a novel biomechanical angle for plaque interventions.

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