Person: Gil Dones, Félix
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First Name
Félix
Last Name
Gil Dones
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Ciencias Biológicas
Department
Genética, Fisiología y Microbiología
Area
Genética
Identifiers
5 results
Search Results
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Item Valvular Aortic Stenosis: A Proteomic Insight(Clinical Medicine Insights: Cardiology, 2010) Gil Dones, Félix; Martin-Rojas, Tatiana; Lopez-Almodovar, Luis ; Cuesta, Fernando de La; Darde, Veronica ; Alvarez-Llamas, Gloria; Juarez-Tosina, Rocio; Barroso, Gemma; Vivanco, Fernando; Padial, Luis ; Barderas, MariaCalcified aortic valve disease is a slowly progressive disorder that ranges from mild valve thickening with no obstruction of blood flow, known as aortic sclerosis, to severe calcification with impaired leaflet motion or aortic stenosis. In the present work we describe a rapid, reproducible and effective method to carry out proteomic analysis of stenotic human valves by conventional 2-DE and 2D-DIGE, minimizing the interference due to high calcium concentrations. Furthermore, the protocol permits the aortic stenosis proteome to be analysed, advancing our knowledge in this area. Until recently, aortic stenosis (AS) was considered a passive process secondary to calcium deposition in the aortic valves. However, it has recently been highlighted that the risk factors associated with the development of calcified AS in the elderly are similar to those of coronary artery disease. Furthermore, degenerative AS shares histological characteristics with atherosclerotic plaques, leading to the suggestion that calcified aortic valve disease is a chronic inflammatory process similar to atherosclerosis. Nevertheless, certain data does not fit with this theory making it necessary to further study this pathology. The aim of this study is to develop an effective protein extraction protocol for aortic stenosis valves such that proteomic analyses can be performed on these structures. In the present work we have defined a rapid, reproducible and effective method to extract proteins and that is compatible with 2-DE, 2D-DIGE and MS techniques. Defining the protein profile of this tissue is an important and challenging task that will help to understand the mechanisms of physiological/pathological processes in aortic stenosis valves.Item Development of an Optimal Protocol for the Proteomic Analysis of Stenotic and Healthy Aortic Valves(Revista Española de Cardiologia, 2010) Gil Dones, Félix; Martín-Rojas, Tatiana; López-Almodovar, Luis ; Juárez-Tosina, Rocío; Cuesta, Fernando de La; Álvarez-Llamas, Gloria; Alonso-Orgaz, Sergio; Vivanco, Fernando; Rodríguez-Padial, Luis; Barderas, MaríaIntroduction and objectives: For many years, degenerative aortic stenosis was thought to be a passive process secondary to calcium deposition in aortic valves. Although its etiology remains unknown, several authors have pointed out that degenerative aortic stenosis is associated with the same risk factors as coronary artery disease. Furthermore, histological similarities have been found between aortic valve stenosis and atherosclerotic plaque, giving rise to the hypothesis that degenerative aortic stenosis is an inflammatory process similar to atherosclerosis. Nevertheless, some data do not fit with this hypothesis and, consequently, greater understanding of the condition is needed. The main aim of this study was to develop a practical protocol for extracting protein for use in proteomic analysis from both stenotic and healthy aortic valves. Methods: The study was carried out using a number of different proteomic methods: two-dimensional electrophoresis, mass spectrometry, and additional techniques. Results: We developed a simple and reproducible methodology in the laboratory for carrying out the proteomic analysis of human aortic valves and for identifying their component proteins. Conclusions: We developed a simple and reproducible method for extracting protein that can be used with mass spectrometry and that makes it possible to carry out large-scale proteomic analysis of stenotic aortic valves. Furthermore, the methodology will significantly increase our understanding of the valve proteome.Item Proteomics - A Powerful Tool to Deepen the Molecular Mechanisms of Aortic Stenosis Disease(Aortic Stenosis - Etiology, Pathophysiology and Treatment, 2011) Gil Dones, Félix; Cuesta, Fernando de la; Álvarez Llamas, Gloria; Padial, Luis ; López-Almodovar, Luis ; Martin-Rojas, Tatiana; Vivanco, Fernando; Barderas, MariaItem Targeting antigens to an invariant epitope of the MHC Class II DR molecule potentiates the immune response to subunit vaccines(Virus Research, 2011) Gil Dones, Félix; Pérez-Filgueira, Mariano; Barderas, María ; Pastor Vargas, Carlos; Alonso, Covadonga; Vivanco, Fernando; Escribano, JoséRecombinant subunit and peptidic vaccines in general present a reduced immunogenicity in vaccinated individuals with respect to the whole pathogen from which they derived. The generation of strong immune responses to these vaccines requires the use of potent adjuvants, high antigen doses and repetitive vaccinations. In this report, we document the enhanced antibody response obtained against two recombinant subunit vaccines by means of targeting to antigen-presenting cells by a recombinant single chain antibody. This antibody, named APCH1, recognizes an epitope of MHC Class II DR molecule preserved in different animal species, including humans. We showed that vaccinal antigens translationally fused to APCH1 antibody and produced by recombinant baculoviruses in insect larvae (Trichoplusia ni), elicited an increased antibody response in comparison with the same antigens alone or fused to a carrier molecule. These results suggest that targeting of antigens to this invariant MHC Class II epitope has immunopotentiating effects that could circumvent the reduced potency of peptidic or subunit vaccines, opening the possibility of widespread application of APCH1 as a new adjuvant antibody of general use.Item Inside human aortic stenosis: a proteomic analysis of plasma(Journal of Proteomics, 2012) Gil Dones, Félix; Darde, Verónica ; Alonso-Orgaz, Sergio; Lopez-Almodovar, Luis ; Mourino-Alvarez, Laura; Padial, Luis ; Vivanco, Fernando; Barderas, MariaValvular aortic stenosis (AS) produces a slowly progressive obstruction in left ventricular outflow track. For this reason, aortic valve replacement is warranted when the valvular stenosis is hemodinamically significant, becoming the most common worldwide cause of aortic valve surgery. Recent epidemiologic studies have revealed an association between degenerative AS and cardiovascular risk factors for atherosclerosis, althought reducing the exposure to such factors and statin therapies both fail to delay or reverse the pathology. Hence, a deeper understanding of the pathophysiology of this disease is required to identify appropriate preventive measures. A proteomic analysis of plasma will permit to know and identify the changes in protein expression induced by AS in this tissue. Using two-dimensional difference gel electrophoresis (2D-DIGE) followed by mass spectrometry (MS), we compared the crude (not pre-fractioned) and pre-fractioned plasma from AS patients and control subjects. We sought to identify plasma proteins whose expression is modified in AS. In addition we investigated if crude plasma presented some alterations in the more abundant proteins since to date, has never been studied before. We also further investigated the link between this disease and atherosclerosis with a view to identifying new potential markers and therapeutic targets.