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  • Paraoxonase-1 overexpression prevents experimental abdominal aortic aneurysm progression.

Paraoxonase-1 overexpression prevents experimental abdominal aortic aneurysm progression.

Clinical science (London, England : 1979) (2016-03-20)
Elena Burillo, Carlos Tarin, Monica-Maria Torres-Fonseca, Carlos-Ernesto Fernandez-García, Roxana Martinez-Pinna, Diego Martinez-Lopez, Patricia Llamas-Granda, Emilio Camafeita, Juan Antonio Lopez, Melina Vega de Ceniga, Michael Aviram, Jesus Egido, Luis-Miguel Blanco-Colio, Jose-Luis Martín-Ventura
摘要

Abdominal aortic aneurysm (AAA) is a permanent dilation of the aorta due to excessive proteolytic, oxidative and inflammatory injury of the aortic wall. We aimed to identify novel mediators involved in AAA pathophysiology, which could lead to novel therapeutic approaches. For that purpose, plasma from four AAA patients and four controls were analysed by a label-free proteomic approach. Among identified proteins, paraoxonase-1 (PON1) was decreased in plasma of AAA patients compared with controls, which was further validated in a bigger cohort of samples by ELISA. The phenylesterase enzymatic activity of PON1 was also decreased in serum of AAA patients compared with controls. To address the potential role of PON1 as a mediator of AAA, experimental AAA was induced by aortic elastase perfusion in wild-type (WT) mice and human transgenic PON1 (HuTgPON1) mice. Similar to humans, PON1 activity was also decreased in serum of elastase-induced AAA mice compared with healthy mice. Interestingly, overexpression of PON1 was accompanied by smaller aortic dilation and higher elastin and vascular smooth muscle cell (VSMC) content in the AAA of HuTgPON1 compared with WT mice. Moreover, HuTgPON1 mice display decreased oxidative stress and apoptosis, as well as macrophage infiltration and monocyte chemoattractant protein-1 (MCP1) expression, in elastase-induced AAA. In conclusion, decreased circulating PON1 activity is associated with human and experimental AAA. PON1 overexpression in mice protects against AAA progression by reducing oxidative stress, apoptosis and inflammation, suggesting that strategies aimed at increasing PON1 activity could prevent AAA.

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Sigma-Aldrich
弹性蛋白酶 来源于猪胰腺, Type I, ≥4.0 units/mg protein