Background: This review aims to analyze biomolecular and cellular events responsible for arterial aneurysm formation with particular attention to vascular remodeling that determines the initiation and the progression of arterial aneurysm, till rupture.
Methods: This review was conducted searching libraries such as Web of Science, Scopus, ScienceDirect, and MEDLINE. Used keywords with various combinations were "arterial aneurysms," "biology," "genetics," "proteomics," "molecular," "pathophysiology," and extracellular matrix".
Results: There are several genetic alterations responsible of syndromic and nonsyndromic disease that predispose to aneurysm formation. Extracellular matrix imbalance, mainly due to the alteration of vascular smooth muscle cells homeostasis, overexpression of metalloproteinases, and cytokines activation, determines weakness of the arterial wall that dilates thus causing aneurysmal disease. Altered mechanotransduction in the extracellular matrix may also trigger and sustain anomalous cellular and biochemical signaling. Different cell population such as vascular smooth muscle cells, macrophages, perivascular adipose tissue cells, and vascular wall resident stem cells are all involved at different levels.
Conclusions: Improving knowledge in vascular biology may help researchers and physicians in better targeting aneurysmal disease to better prevent and better treat such important disease.
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