We protect your health through science
Investigation
Immune Presentation and Regulation
Research Lines
Content with Investigacion .
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.
Research projects
Content with Investigacion .
1. Project Title: Determination of the degree of identity of common antigens of N. meningitidis and N. gonorrhoeae using genomic and immunological tools.
Principal Investigator: Raquel Abad Torreblanca
Funding Entity: ISCIII. Program: Strategic Action in Intramural Health
Reference: PI23CIII/00040
Period: 2024-2026
Amount Awarded: €68,500
2. Project Title: Meningococcal Disease and Molecular Epidemiology (MEMORY).
Principal Investigator: Raquel Abad Torreblanca and Julio A. Vázquez Moreno
Funding Entity: Pfizer Inc.
Reference: MVP 352/21
Period: 2022-2024
Amount Awarded: €82,834.50
3. Project Title: Modelling Approaches to Guide Intelligent Surveillance for the Sustainable Introduction of Novel Antibiotics. MAGIcIAN.
Principal Investigator: Raquel Abad Torreblanca
Funding Entity: ISCIII / International Joint Action / Joint Programming Initiatives (JPI) Program
Reference: AC19CIII/00002
Period: 2020-2024
Amount Awarded: €46,000
4. Project Title: Epidemiological, Microbiological, and Clinical Analysis of the Listeriosis Outbreak in Andalusia. LISMOAN Study.
Principal Investigator: José Miguel Cisneros Herreros
Funding Entity: FISEVI (Andalusian Public Foundation for Health Research Management)/FPS2020 Call for Proposals
Reference: PI-0001-2020
Period: 2020-2023
Amount Awarded: €114,954
5. Project Title: Population Structure of Neisseria meningitidis Using Massive Sequencing: A Potential Tool for Estimating Vaccine Effectiveness?
Principal Investigator: Raquel Abad Torreblanca
Funding Entity: ISCIII / Strategic Action in Intramural Health
Reference: PI19CIII/00030
Period: 2020-2023
Amount Awarded: €67,153
6. Project Title: Management agreement between the Ministry of Health, Social Services and Equality (Directorate General of Public Health, Quality and Innovation) and the Carlos III Health Institute, for the laboratory determinations corresponding to the 2nd seroprevalence study in Spain.
Principal Investigator: Fernando de Ory and Julio A. Vázquez
Funding Entity: Directorate General of Public Health, Ministry of Health
Reference: MEG151/17
Period: 2018-2020
Amount Awarded: €565,663
7. Project Title: Effectiveness of the Meningococcal B Vaccine in Immunocompromised Children with Sickle Cell Disease
Principal Investigator: Raquel Abad Torreblanca
Funding Entity: Spanish Society of Pediatric Hematology and Oncology Foundation (SEHOP)
Reference: MVP 199/18
Period: 2018-2020
Amount Awarded: €18,285
8. Project Title: Application of Massive Sequencing and Immunological Approaches in the Expression Analysis of New Vaccine Antigens in Meningococcal Populations
Principal Investigator: Raquel Abad Torreblanca
Funding Entity: ISCIII / Strategic Action in Intramural Health
Reference: PI16CIII/00023
Period: 2017-2020
Amount Awarded: €115,084
9. Project Title: fHbp variability over time and potential coverage of the new meningococcal serogroup B vaccine (bivalent rLP2086/fHbp) in Spain.
Principal Investigators: Raquel Abad and Julio A. Vázquez
Funding Entity: Pfizer SLU
Reference: MVP 1273/16
Period: 2017-2020
Amount Awarded: €125,350
10. Project Title: Estimation of protection of a conjugate vaccine against meningococcus serogroup C based on a mathematical model.
Principal Investigator: Julio A. Vázquez and Javier Díez
Funding Entity: Higher Center for Research in Public Health (CSISP)
Reference: MVP 1116/11
Period: 2011-2017
Amount awarded: €143,750
Publications
Acquisition of functions on the outer capsid surface during evolution of double-stranded RNA fungal viruses
Mata C.P., Luque D., Gómez-Blanco J., Rodríguez J.M., González J.M., Suzuki N., Ghabrial S.A., Carrascosa J.L., Trus B.L., Castón J.R. 2017. Acquisition of functions on the outer capsid surface during evolution of double-stranded RNA fungal viruses. PLoS Pathog. 13(12):e1006755.
PUBMED DOIStructural Insights into the Assembly and Regulation of Distinct Viral Capsid Complexes
Sarker S., C. Terrón M., Khandokar Y., Aragão D., Hardy J.M., Radjainia M., Jiménez-Zaragoza M., de Pablo P.J., Coulibaly F., Luque D., Raidal D.R., Forwood J.K. 2016. Structural Insights into the Assembly and Regulation of Distinct Viral Capsid Complexes. Nat. Commun. 7:13014. IF: 12.124; D1.
PUBMED DOIHeterodimers as the structural unit of the T=1 capsid of the fungal dsRNA Rosellinia necatrix quadrivirus 1
Luque D., Mata C.P., González-Camacho F., González J.M., Gómez-Blanco J., Alfonso C., Rivas G., Havens W.M., Kanematsu S., Suzuki N., Ghabrial S.A., Trus B.L., Castón J.R. 2016. Heterodimers as the structural unit of the T=1 capsid of the fungal dsRNA Rosellinia necatrix quadrivirus 1. J Virol. 90(24):11220-11230. IF: 4.666, Q1.
PUBMED DOISelf-assembly and characterization of small and monodisperse dye nanospheres in a protein cage
Luque D., de la Escosura A., Snijder J., Brasch M., Burnley R.J, Koay M.S.T., Carrascosa J.L., Wuite G.J.L., Roos W.H., Heck A.J.R., J.J.L.M Cornelissen, Torres T., Castón J.R. 2014. Self-assembly and characterization of small and monodisperse dye nanospheres in a protein cage. Chem. Sci.,5, 575-581. IF: 9.211, D1.
DOICryo-EM near-atomic structure of a dsRNA fungal virus shows ancient structural motifs preserved in the dsRNA viral lineage.
Luque D., Gómez-Blanco J., Garriga D., Brilot A.F., González J.M., Havens W.M., Carrascosa J.L., Trus B.L., Verdaguer N., Ghabrial S.A., Castón J.R. 2014. Cryo-EM near-atomic structure of a dsRNA fungal virus shows ancient structural motifs preserved in the dsRNA viral lineage. Proc Natl Acad Sci U S A 111(21):7641-7646. IF: 9.674, D1
PUBMED DOINew insights into rotavirus entry machinery: stabilization of rotavirus spike conformation is independent of trypsin cleavage
Rodríguez J.M., Chichón F.J., Martín-Forero E., González-Camacho F., Carrascosa J.L., Castón J.R., Luque D*. 2014. New insights into rotavirus entry machinery: stabilization of rotavirus spike conformation is independent of trypsin cleavage. PLoS Pathog. 10(5):e1004157. IF: 7.562, D1. * Corresponding autor.
PUBMED DOIEfficacy and safety assessment of a TRAF6-targeted nanoimmunotherapy in atherosclerotic mice and non-human primates.
3. Lameijer M, Binderup T, van Leent M, Senders M, Fay F. Seijkens T, Kroon J, Stroes E, Kjaer A, Ochando J, Reiner T, Pérez-Medina C, Calcagno C, Fischer E, Zhang B, Temel R, Swirski F, Nahrendorf M, Fayad Z, Lutgens E, Mulder W and Duivenvoorden R. Efficacy and safety assessment of a TRAF6-targeted nanoimmunotherapy in atherosclerotic mice and non-human primates. Nature Biomedical Engineering. 2018. 2: 279–292.
PUBMED DOINeutrophil derived CSF1 induces macrophage polarization and promotes transplantation tolerance.
4. Braza MS, Conde P, Garcia MR, Cortegano I, Brahmachary M, Pothula V, Fay F, Boros P, Werner SW, Ginhoux F, Mulder WJ, and Ochando J. Neutrophil derived CSF1 induces macrophage polarization and promotes transplantation tolerance. Am J Transplant. 2018.
PUBMED DOI
Additional Information
The group is interested in the study of the immune response from a multidisciplinary perspective that includes genomic, biochemical, proteomic, in vivo and biotechnological models aimed at the design of therapeutic strategies against various chronic, infectious and rare diseases that have a clear immunological component in their etiology.
The current specific objectives focus on:
- Antigenic presentation: Identification of antigenic presentation rules for their application in the design of therapeutic treatments including vaccines.
- Study of CD69 function and its regulation; its use as a therapeutic target in the mobilization of hematopoietic precursors and in the potentiation of the immune response mediated by CD69 with the potentiation of vaccines using the vaccinia virus as a vector.
The group is interested in the study of the immune response from a multidisciplinary perspective that includes genomic, biochemical, proteomic, in vivo and biotechnological models aimed at the design of therapeutic strategies against various chronic, infectious and rare diseases that have a clear immunological component in their etiology.
The current specific objectives focus on:
- Antigenic presentation: Identification of antigenic presentation rules for their application in the design of therapeutic treatments including vaccines.
- Study of CD69 function and its regulation; its use as a therapeutic target in the mobilization of hematopoietic precursors and in the potentiation of the immune response mediated by CD69 with the potentiation of vaccines using the vaccinia virus as a vector.