Alicia Donado scite author profile

Coronary atherosclerosis still represents the major cause of mortality in western societies. Initiation of atherosclerosis occurs within the intima, where major histological and molecular changes are produced during pathogenesis. So far, proteomic analysis of the atherome plaque has been mainly tackled by the analysis of the entire tissue, which may be a challenging approach because of the great complexity of this sample in terms of layers and cell type composition. Based on this, we aimed to study the intimal proteome from the human atherosclerotic coronary artery. For this purpose, we analyzed the intimal layer from human atherosclerotic coronaries, which were isolated by laser microdissection, and compared with those from preatherosclerotic coronary and radial arteries, using a two-dimensional Differential-In-Gel-Electrophoresis (DIGE) approach. Results have pointed out 13 proteins to be altered (seven up-regulated and six down-regulated), which are implicated in the migrative capacity of vascular smooth muscle cells, extracellular matrix composition, coagulation, apoptosis, heat shock response, and intraplaque hemorrhage deposition. Among these, three proteins (annexin 4, myosin regulatory light 2, smooth muscle isoform, and ferritin light chain) constitute novel atherosclerotic coronary intima proteins, because they were not previously identified at this human coronary layer. For this reason, these novel proteins were validated by immunohistochemistry, together with hemoglobin and vimentin, in an independent cohort of arteries. Molecular & Cellular

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Pregnancy in cardiac transplant recipients

Bhagra

Donado

et al. 2016

Clinical Transplantation

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Impact of Human Leukocyte Antigen Molecules E, F, and G on the Outcome of Transplantation

Pabón

Navarro

Osorio

et al. 2014

Transplantation Proceedings

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An optimum method designed for 2‐D DIGE analysis of human arterial intima and media layers isolated by laser microdissection

Cuesta

Alvarez-Llamas

Maroto

et al. 2009

Proteomics Clinical Apps

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The formation and progression of atherosclerotic lesions involve complex mechanisms which are still not fully understood. A variety of cell types from the distinct arterial layers are implicated in the whole process from lipid accumulation within the vascular wall to plaque development and final rupture. In the present work, we employ the combination of laser microdissection and pressure catapulting and 2-D DIGE saturation labeling to investigate the human intima and media sub-proteomes isolated from atherosclerotic (coronary and aorta) or non-atherosclerotic vessels (preatherosclerotic coronary arteries). Laser microdissection and pressure catapulting allows the specific isolation of regions of interest. In turn, DIGE saturation labeling overcomes the limitation of extensive microdissection times to recover the protein amount required to perform comparative 2-DE, particularly when dealing with tissue regions rich in myofilament proteins, which result in low protein recovery. The compatibility and optimum performance of both techniques were investigated in detail, paying special attention to tissue staining and protein solubilization. Since scarce amount of protein obtained from microdissected tissue made it impossible to directly perform protein identification from 2-DE spots by MS, we performed in-solution digestion followed by LC-MS/MS analysis of total protein extracts from intima and media in order to get an overall picture of protein composition. Proteins so identified confirm the nature of the isolated regions. Finally, similar spot resolution on 2-D DIGE gels was obtained for the different human artery types (coronary, aorta) and studied layers (intima, media), setting the basis for future clinical comparative studies.

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022 * Novel Minimally Invasive Decommissioning of Heartware Left Ventricular Assist Device Following Myocardial Recovery

Wrightson

Robinson-Smith

Butt

et al. 2014

Interactive CardioVascular and Thoracic Surgery

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Alicia Donado

A Proteomic Focus on the Alterations Occurring at the Human Atherosclerotic Coronary Intima

Pregnancy in cardiac transplant recipients

Impact of Human Leukocyte Antigen Molecules E, F, and G on the Outcome of Transplantation

An optimum method designed for 2‐D DIGE analysis of human arterial intima and media layers isolated by laser microdissection

022 * Novel Minimally Invasive Decommissioning of Heartware Left Ventricular Assist Device Following Myocardial Recovery

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