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Investigación

Leishmaniasis and Chagas Disease

Líneas de investigación

Content with Investigacion Neisseria, Listeria y Bordetella .

Neisseria, Listeria y Bordetella

• Invasive Meningococcal Disease.

o Laboratory surveillance based on whole-genome sequencing and its application in Public Health.

o Study and characterization of antimicrobial resistance mechanisms.

o Study and evaluation of conventional (polysaccharide) and new-generation (protein) vaccines.

• Gonococcal Infection (Gonorrhea).

o Laboratory surveillance based on whole-genome sequencing and its application in Public Health.

o Study and characterization of antimicrobial resistance mechanisms.

• Listeriosis.

o Laboratory surveillance based on whole-genome sequencing and its application in Public Health.

• Pertussis.

o Development and application of molecular techniques for the diagnosis and characterization of Bordetella pertussis, B. parapertussis, B. holmessi, and B. bronchiseptica.

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Publicaciones destacadas

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Immunoinformatics lessons on the current COVID-19 pandemic and future coronavirus zoonoses

López D, García-Peydró M. “Immunoinformatics lessons on the current COVID-19 pandemic and future coronavirus zoonoses”. Frontiers in Immunology 14:1118267 (2023).

PUBMED DOI

Predicted HLA Class I and Class II Epitopes From Licensed Vaccines Are Largely Conserved in New SARS-CoV-2 Omicron Variant of Concern.

López, D. 2022. Predicted HLA Class I and Class II Epitopes From Licensed Vaccines Are Largely Conserved in New SARS-CoV-2 Omicron Variant of Concern. Front Immunol. 13:832889.

PUBMED

Garcia-Arriaza, J., M. Esteban, and D. López. 2021

Garcia-Arriaza, J., M. Esteban, and D. López. 2021. Modified Vaccinia Virus Ankara as a Viral Vector for Vaccine Candidates against Chikungunya Virus. Biomedicines. 9.

PUBMED

Cross-Recognition of SARS-CoV-2 B-Cell Epitopes with Other Betacoronavirus Nucleoproteins

Tajuelo, A., M. López-Siles, V. Mas, P. Perez-Romero, J. M. Aguado, V. Briz, M. J. McConnell, A. J. Martín-Galiano, and D. López. 2022. Cross-Recognition of SARS-CoV-2 B-Cell Epitopes with Other Betacoronavirus Nucleoproteins. Int.J.Mol.Sci. 23.

PUBMED

Abundance, Betweenness Centrality, Hydrophobicity, and Isoelectric Points Are Relevant Factors in the Processing of Parental Proteins of the HLA Class II Ligandome.

Lorente, E., A. J. Martín-Galiano, D. M. Kadosh, A. Barriga, J. Garcia-Arriaza, C. Mir, M. Esteban, A. Admon, and D. López. 2022. Abundance, Betweenness Centrality, Hydrophobicity, and Isoelectric Points Are Relevant Factors in the Processing of Parental Proteins of the HLA Class II Ligandome. J.Proteome.Res. 21:164-171.

DOI

Prediction of Conserved HLA Class I and Class II Epitopes from SARS-CoV-2 Licensed Vaccines Supports T-Cell Cross-Protection against SARS-CoV-1.

López, D. 2022. Prediction of Conserved HLA Class I and Class II Epitopes from SARS-CoV-2 Licensed Vaccines Supports T-Cell Cross-Protection against SARS-CoV-1. Biomedicines. 10.

PUBMED DOI

Predicted Epitope Abundance Supports Vaccine-Induced Cytotoxic Protection Against SARS-CoV-2 Variants of Concern.

Martín-Galiano, A. J., F. Diez-Fuertes, M. J. McConnell, and D. López. 2021. Predicted Epitope Abundance Supports Vaccine-Induced Cytotoxic Protection Against SARS-CoV-2 Variants of Concern. Front Immunol. 12:732693.

PUBMED DOI

de la Sota, P. G., E. Lorente, L. Notario, C. Mir, O. Zaragoza, and D. López. 2021. Mitoxantrone Shows In Vitro, but Not In Vivo Antiviral Activity against Human Respiratory Syncytial Virus. Biomedicines. 9.

de la Sota, P. G., E. Lorente, L. Notario, C. Mir, O. Zaragoza, and D. López. 2021. Mitoxantrone Shows In Vitro, but Not In Vivo Antiviral Activity against Human Respiratory Syncytial Virus. Biomedicines. 9.

PUBMED DOI

Lorente, E., M. Marcilla, P. G. de la Sota, A. Quijada-Freire, C. Mir, and D. López. 2021. Acid Stripping after Infection Improves the Detection of Viral HLA Class I Natural Ligands Identified by Mass Spectrometry. Int.J.Mol.Sci. 22.

Lorente, E., M. Marcilla, P. G. de la Sota, A. Quijada-Freire, C. Mir, and D. López. 2021. Acid Stripping after Infection Improves the Detection of Viral HLA Class I Natural Ligands Identified by Mass Spectrometry. Int.J.Mol.Sci. 22.

PUBMED DOI

Redondo-Anton, J., M. G. Fontela, L. Notario, R. Torres-Ruiz, S. Rodriguez-Perales, E. Lorente, and P. Lauzurica. 2020. Functional Characterization of a Dual Enhancer/Promoter Regulatory Element Leading Human CD69 Expression. Front Genet. 11:552949.

Redondo-Anton, J., M. G. Fontela, L. Notario, R. Torres-Ruiz, S. Rodriguez-Perales, E. Lorente, and P. Lauzurica. 2020. Functional Characterization of a Dual Enhancer/Promoter Regulatory Element Leading Human CD69 Expression. Front Genet. 11:552949.

PUBMED DOI

Lorente, E., E. Barnea, C. Mir, A. Admon, and D. López. 2020. The HLA-DP peptide repertoire from human respiratory syncytial virus is focused on major structural proteins with the exception of the viral polymerase. J Proteomics. 221:103759.

Lorente, E., E. Barnea, C. Mir, A. Admon, and D. López. 2020. The HLA-DP peptide repertoire from human respiratory syncytial virus is focused on major structural proteins with the exception of the viral polymerase. J Proteomics. 221:103759.

PUBMED DOI

Lorente, E., M. G. Fontela, E. Barnea, A. J. Martín-Galiano, C. Mir, B. Galocha, A. Admon, P. Lauzurica, and D. López. 2020. Modulation of Natural HLA-B*27:05 Ligandome by Ankylosing Spondylitis-associated Endoplasmic Reticulum Aminopeptidase 2 (ERAP2). Mol.Cell Proteomics. 19:994-1004.

Lorente, E., M. G. Fontela, E. Barnea, A. J. Martín-Galiano, C. Mir, B. Galocha, A. Admon, P. Lauzurica, and D. López. 2020. Modulation of Natural HLA-B*27:05 Ligandome by Ankylosing Spondylitis-associated Endoplasmic Reticulum Aminopeptidase 2 (ERAP2). Mol.Cell Proteomics. 19:994-1004.

PUBMED DOI

Marquez, A., M. Gomez-Fontela, S. Lauzurica, R. Candorcio-Simon, D. Munoz-Martín, M. Morales, M. Ubago, C. Toledo, P. Lauzurica, and C. Molpeceres. 2020. Fluorescence enhanced BA-LIFT for single cell detection and isolation. Biofabrication. 12:025019.

Marquez, A., M. Gomez-Fontela, S. Lauzurica, R. Candorcio-Simon, D. Munoz-Martín, M. Morales, M. Ubago, C. Toledo, P. Lauzurica, and C. Molpeceres. 2020. Fluorescence enhanced BA-LIFT for single cell detection and isolation. Biofabrication. 12:025019.

PUBMED DOI

Lorente, E., C. Palomo, E. Barnea, C. Mir, V. M. Del, A. Admon, and D. López. 2019a. Natural Spleen Cell Ligandome in Transporter Antigen Processing-Deficient Mice. J.Proteome.Res. 18:3512-3520.

Lorente, E., C. Palomo, E. Barnea, C. Mir, V. M. Del, A. Admon, and D. López. 2019a. Natural Spleen Cell Ligandome in Transporter Antigen Processing-Deficient Mice. J.Proteome.Res. 18:3512-3520.

PUBMED

Lorente, E., J. Redondo-Anton, A. Martín-Esteban, P. Guasp, E. Barnea, P. Lauzurica, A. Admon, and J. A. López de Castro. 2019. Substantial Influence of ERAP2 on the HLA-B*40:02 Peptidome: Implications for HLA-B*27-Negative Ankylosing Spondylitis. Mol.Cell Proteomics. 18:2298-2309.

Lorente, E., J. Redondo-Anton, A. Martín-Esteban, P. Guasp, E. Barnea, P. Lauzurica, A. Admon, and J. A. López de Castro. 2019. Substantial Influence of ERAP2 on the HLA-B*40:02 Peptidome: Implications for HLA-B*27-Negative Ankylosing Spondylitis. Mol.Cell Proteomics. 18:2298-2309.

PUBMED DOI

Brait, V. H., F. Miro-Mur, I. Perez-de-Puig, L. Notario, B. Hurtado, J. Pedragosa, M. Gallizioli, F. Jimenez-Altayo, M. Arbaizar-Rovirosa, A. Otxoa-de-Amezaga, J. Monteagudo, M. Ferrer-Ferrer, l. R. de, X, E. Bonfill-Teixidor, A. Salas-Perdomo, A. Hernandez-Vidal, P. Garcia-de-Frutos, P. Lauzurica, and A. M. Planas. 2019. CD69 Plays a Beneficial Role in Ischemic Stroke by Dampening Endothelial Activation. Circ.Res. 124:279-291.

Brait, V. H., F. Miro-Mur, I. Perez-de-Puig, L. Notario, B. Hurtado, J. Pedragosa, M. Gallizioli, F. Jimenez-Altayo, M. Arbaizar-Rovirosa, A. Otxoa-de-Amezaga, J. Monteagudo, M. Ferrer-Ferrer, l. R. de, X, E. Bonfill-Teixidor, A. Salas-Perdomo, A. Hernandez-Vidal, P. Garcia-de-Frutos, P. Lauzurica, and A. M. Planas. 2019. CD69 Plays a Beneficial Role in Ischemic Stroke by Dampening Endothelial Activation. Circ.Res. 124:279-291.

DOI

López, D., A. Barriga, E. Lorente, and C. Mir. 2019. Immunoproteomic Lessons for Human Respiratory Syncytial Virus Vaccine Design. J.Clin.Med. 8.

López, D., A. Barriga, E. Lorente, and C. Mir. 2019. Immunoproteomic Lessons for Human Respiratory Syncytial Virus Vaccine Design. J.Clin.Med. 8.

PUBMED DOI

Lorente, E., A. Barriga, E. Barnea, C. Palomo, J. Garcia-Arriaza, C. Mir, M. Esteban, A. Admon, and D. López. 2019. Immunoproteomic analysis of a Chikungunya poxvirus-based vaccine reveals high HLA class II immunoprevalence. PLoS.Negl.Trop.Dis. 13:e0007547.

Lorente, E., A. Barriga, E. Barnea, C. Palomo, J. Garcia-Arriaza, C. Mir, M. Esteban, A. Admon, and D. López. 2019. Immunoproteomic analysis of a Chikungunya poxvirus-based vaccine reveals high HLA class II immunoprevalence. PLoS.Negl.Trop.Dis. 13:e0007547.

PUBMED DOI

Computational characterization of the peptidome in transporter associated with antigen processing (TAP)-deficient cells.

Martin-Galiano, A. J. and Lopez, D. (2019) Computational characterization of the peptidome in transporter associated with antigen processing (TAP)-deficient cells. PLoS.ONE. 14, e0210583.

PUBMED DOI

Proteomics analysis reveals that structural proteins of the virion core and involved in gene expression are the main source for HLA class II ligands in vaccinia virus-infected cells.

Lorente, E., Martin-Galiano, A. J., Barnea, E., Barriga, A., Palomo, C., Garcia-Arriaza, J., Mir, C., Lauzurica, P., Esteban, M., Admon, A., and Lopez, D. (2019) Proteomics analysis reveals that structural proteins of the virion core and involved in gene expression are the main source for HLA class II ligands in vaccinia virus-infected cells. J.Proteome.Res. 18(9):3512-3520

PUBMED DOI

Content with Investigacion Neisseria, Listeria y Bordetella .

List of staff

Información adicional

The Leishmaniasis and Chagas Disease Unit supports the National Health System through a multidisciplinary approach that includes the development and validation of diagnostic tests, the molecular characterization of parasites, molecular epidemiology, field studies, as well as experimental research into new therapeutic and prophylactic approaches for their control.
The laboratory has extensive experience in the characterization of the cellular and humoral immune response of leishmaniasis and post-treatment monitoring, as well as in asymptomatic individuals and in experimental animal models. The laboratory also contributes to immunological studies of the pathogenesis of leishmaniasis under immunosuppressive conditions (HIV/Leishmania co-infection, malnutrition, immunosuppressive treatment...). The laboratory has been a WHO Collaborating Center for Leishmaniasis since 1997, providing technical support to the various research and training activities of the WHO and participating in the evaluation of outbreaks of human leishmaniasis in endemic countries.
The laboratory also participates in the evaluation of prognostic markers for the evolution of T. cruzi infection and vertical (transplacental) transmission, an important public health problem in our country. It also carries out studies on the pharmacokinetics of drugs against Chagas disease.

Content with Investigacion Neisseria, Listeria y Bordetella .