APA
Duran, Mari Carmen & Mas, Sebastian & Martin Ventura, Jose Luis & Meilhac, Olivier & Michel, Jean Baptiste & Gallego Delgado, Julio & Lázaro, Alberto & Tuñon, José & Egido, Jesus & Vivanco, Fernando .Proteomic analysis of human vessels: Application to atherosclerotic plaques.
ISO 690
Duran, Mari Carmen & Mas, Sebastian & Martin Ventura, Jose Luis & Meilhac, Olivier & Michel, Jean Baptiste & Gallego Delgado, Julio & Lázaro, Alberto & Tuñon, José & Egido, Jesus & Vivanco, Fernando. Proteomic analysis of human vessels: Application to atherosclerotic plaques.
https://hdl.handle.net/20.500.12080/39715
Abstract:
Atherosclerosis is a chronic disease that affects medium and large arteries. This pro cess originates from the interaction between cells of the arterial wall, lipoproteins and
inflammatory cells, leading to the development of complex lesions or plaques that pro trude into the arterial lumen. Plaque rupture and thrombosis result in acute clinical
complications such as myocardial infarction and stroke. Owing to the heterogeneous
cellular composition of the plaques, a proteomic analysis of the whole lesion is not
appropriate. Therefore, we have studied the proteins secreted by human carotid ather osclerotic plaques, obtained by endarterectomy. Normal artery segments and different
regions of the surgical pieces (noncomplicated plaque, complicated plaque with
thrombus) were cultured in protein-free medium and the secreted proteins (superna tants) analyzed by two-dimensional gel electrophoresis. Normal artery segments
secreted a moderate number of proteins (42 spots). However in the two-dimensional
(2-D) gels (pH 3¿10) of segments bearing a plaque, the number of spots increased
markedly (154). The number of spots also increased (202) in the 2-D gels of artery seg ments with a ruptured plaque and thrombus. Thus, the more complicated the lesion,
the higher the number of secreted proteins, suggesting the production of specific pro teins relating to the complexity of the atherosclerotic lesion.
Keywords: Atherosclerotic plaques / Human vessels / Secreted proteome