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Investigation

Arbovirus and imported viral diseases

Research Lines

Content with Investigacion Hepatitis .

Hepatitis

  1. Diseño de métodos diagnósticos para el estudio de los virus de las hepatitis (VH) A, B, C, D, E: Diseñamos sistemas de PCR para su detección y caracterización.
  2. Evaluación de métodos diagnósticos de los VH. Colaboramos con empresas para estudios de sensibilidad y especificidad de equipos diagnósticos.
  3.  Estudios de Seroprevalencia de los virus de las hepatitis.
  4.  Epidemiología genómica de genomas completos de VHA, VHB, VHC, VHD y VHE en colaboración con el ECDC. Estudios de trazabilidad del VHE.
  5. Caracterización molecular de virus de las hepatitis mediante secuenciación masiva:               a) VHB: mutantes de escape HBsAg (prevalencia y efectos en la detección del HBsAg). Estudio de mutaciones en epítopos de estimulación inmune y mutaciones asociadas a evolución clínica desfavorable.
    1. b) VHC: resistencias a los antivirales de acción directa. Análisis molecular de subtipos poco frecuentes.
      c) Estudios filogenéticos del VHD.
       d) Análisis genómico del VHE.
       e) Investigación etiológica de hepatitis no filiadas mediante estudios de metagenómica.

Research projects

Content with Investigacion Hepatitis .

1.    Proyecto CIBEREPS 2022. Microbiological and genomic investigation of hepatitis in children by metagenomic approach in case and control subjects (IP: Ana Avellón).
2023-2024. En colaboración con el Hospital San Joan de Deu de Barcelona.

2.    MPY 501-19: Tracking hepatitis E virus infection by means of epidemiological research and whole genome sequencing. Project TrazHE. (IP: Ana Avellón). 2020-2024.

3.    Proyecto CIBEREPS 2021 Metagenomic sequencing to identify viral aetiologies in undiagnosed paediatric cases of meningitis and encephalitis (IP: D. Tarragó). 2021-2022.

4.    MPY 383/19 (PEJ2018-004446-A). Ayudas para la promoción de empleo joven e implantación de la garantía juvenil en I+D+I. análisis de la complejidad de secuencias de los virus de la hepatitis A, B, C; D y E (VHA, VHB, VHC, VHD y VHE) mediante técnicas de secuenciación masiva. (IP: Ana Avellón). 2020-2021.

5.    MPY 1285/16 Movilidad "Salvador de Madariaga" programa estatal de promoción de talento y su empleabilidad. (IP: Ana Avellón). 2016.​

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Publications

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Toll-like receptor signaling-deficient cells enhance antitumor activity of cell-based immunotherapy by increasing tumor homing

A. Morales-Molina, M.A. Rodríguez-Milla, S,. Gambera, T. Cejalvo, B. de Andrés M.L. Gaspar, J. Garcia-Castro. Cancer Res Commun 2023 Mar 1;3(3):347-360. eCollection 2023 Mar

PUBMED DOI

Immune stress suppresses innate immune signaling in preleukemic precursor B-cells to provoke leukemia in predisposed mice

Isidro-Hernández M, Casado-García A, Oak N, Alemán-Arteaga S, Ruiz-Corzo B, Martínez-Cano J, Mayado A, G. Sánchez E, Blanco O, Gaspar ML, Orfao A, Alonso-López D, De las Rivas J, Riesco S, Prieto-Matos P, González-Murilo A, García Criado FJ, García Cenador MB, Ramírez-Orellana M, De Andrés B, Vicente-Dueñas C, Cobaleda C, Nichols KE, Sánchez-García I. Nat Commun 2023 Aug 24;14(1):5159.

PUBMED DOI

Role of Toll-like receptor 4 in intravascular hemolisis-mediated injury

Vázquez-Carballo C, Herencia C, Guerrero-Hue M, García-Caballero C, Rayego-Mateos S, Morgado-Pascual JL, Opazo-Rios L, González-Guerrero C, Vallejo-Mudarra M, Cortegano I, Gaspar ML, de Andrés B, Egido J, Moreno JA. J Pathol. 2022 Nov; 258(3): 236–249.

PUBMED DOI

Age-dependent nasal immune responses in non-hospitalized bronchiolitis children

Cortegano I, Rodríguez M, Hernángómez S, Arrabal A, Garcia-Vao C, Rodríguez J, Sandra Fernández S, Díaz J, de la Rosa B, Solís B, Arribas C, Garrido F, Zaballos A, Roa S, López V, Gaspar ML, de Andrés B. Front Immunol 2022 Dec 6:13:1011607.

PUBMED DOI

TREM1 regulates antifungal immune responses in invasive pulmonary aspergillosis

Bernal-Martinez L, Gonçalves S, de Andres B, Cunha C, Gonzalez Jimenez I, Lagrou K, Mellado E, Gaspar ML, Maertens J, Carvalho A, and Alcazar-Fuoli L. Virulence 2021 Dec;12(1):570-583.

PUBMED DOI

Toll-like receptors in acute kidney injury

Vázquez-Carballo C, Guerrero-Hue M, García Caballero C, Rayego-Mateos S, Opazo-Rios L, Morgado-Pascual JL, Herencia-Bellido C, Vallejo-Mudarra M, Cortegano I, Gaspar ML, de Andrés B, Egido J, Moreno-Gutiérrez JA. Int J Mol Sci. 2021 Jan; 22(2): 816.

PUBMED DOI

Senescent accelerated prone 8 (SAMP8) mice as a model of age dependent neuroinflammation

Fernández A, Quintana E, Velasco P, Moreno-Jimenez B, de Andrés B, Gaspar ML, Liste I, Vilar M, Mira E, Cano E. J Neuroinflammation 2021 Mar 18;18(1):75.

PUBMED DOI

The TLR4-MyD88 Signaling Regulates Lung Monocyte Differentiation Pathways in Response to Streptococcus pneumoniae

Sánchez-Tarjuelo R, Cortegano I, Manosalva J, Rodríguez M, Ruiz C, Alía M, Prado MC, Cano EM, Ferrándiz MJ, de la Campa A, Gaspar ML, de Andrés B. Front Immunol 2020 Sep 16:11:2120.

PUBMED DOI

Nrf2 plays a protective role against intravascular hemolysis-mediated acute kidney injury.

Rubio-Navarro A, Vázquez-Carballo C, Guerrero-Hue M, García-Caballero C, Herencia C, Gutierrez E, Yuste C, Sevillano A, Praga M, Egea J, Cannata P, Cortegano I, de Andrés B, Gaspar ML, Cadenas S, Michalska P, León R, Ortiz, A, Egido J, Moreno JA. Front Pharmacol. 2019; 10: 740.

PUBMED DOI

ICOS deficiency hampers the homeostasis, development and activity of NK cell

Montes-Casado M, Ojeda G, Aragoneses-Fenoll L, López D, de Andrés B, Gaspar ML, Dianzani U, Rojo JM, Portolés P. PLoS One 2019 Jul 8;14(7):e0219449.

PUBMED DOI

Neutrophil derived CSF1 induces macrophage polarization and promotes transplantation tolerance

Braza MS, Conde P, García M, Cortegano I, Brahmachary M, Pothula V, Fay F, Boros P, Werner SA, Ginhoux F, Mulder WJM, Ochando J. Am J Transplant 2018 May;18(5):1247-1255.

PUBMED DOI

CD45 expression discriminates waves of embryonic megakaryocytes in the mouse.

Cortegano, I., Serrano, N., Ruiz, C., Rodríguez, M., Prado, C., Alía, M., Hidalgo, A., Cano, E., de Andrés B. and Gaspar, ML. 2018. Haematologica, 104(9):1853-1865

PUBMED DOI

Podocytes as new cellular targets of hemoglobin toxicity in massive intravascular hemolysis.

Rubio-Navarro A, Sanchez-Niño MD, Guerrero-Hue M, García-Caballero C, Gutiérrez E, Yuste C, Sevillano A, Praga M, Egea J, Román E, Cannata P, Ortega R, Cortegano I, de Andrés B, Gaspar ML, Cadenas S, Ortiz A, Egido J, Moreno JA. Podocytes as new cellular targets of hemoglobin toxicity in massive intravascular hemolysis. 2018. J.Pathol. 244(3):296-310.

PUBMED DOI

Spatially-restricted JAG1-Notch signaling in the human thymus provides permissive microenvironments for dendritic cell development.

Martín Gayo, E., González-García, S., García-León, M., Murcia-Ceballos, A., Alcain, J., García-Peydró, M., Allende, L., de Andrés, B., Gaspar, ML. and Toribio, ML. J.Exp.Med. (2017) 214:3361-3379

PUBMED DOI

Altered Marginal Zone and innate-like B cells in aged SAMP8 mice with defective IgG1 responses

Cortegano, I., Rodriguez, M., Martin, I., Prado, C., Ruiz, C., Hortigüela, R., Alia, M., Vilar, M., Mira, H., Cano, E., de Andrés, B., and Gaspar, ML. Cell death & disease (2017) 8, e3000

PUBMED DOI

The formation of titan cells in Cryptococcus neoformans depends on the mouse strain and correlates with induction of Th2-type responses

García-Barbazán, I., Trevijano-Contador, N., Rueda, C., de Andrés, B., Pérez-Tavárez, R., Herrero-Fernández, I., Gaspar ML., and Zaragoza, O. Cellular Microbiology (2015) 18:111-124

PUBMED DOI

DNGR-1+ dendritic cells are located in meningeal and choroid plexus membranes of the non-injured brain.

Quintana, E., Fernández. A, de Andrés, B., Liste, I., Sancho, D., Gaspar, ML. and Cano, E. Glia (2015) 62 (12):2231-2248

PUBMED DOI

Postnatal and adult immunoglobulin repertoires of innate-like CD19(+)CD45R(lo) B Cells.

Prado, C., Rodriguez, M., Cortegano I., Ruiz, C., Alía, M., de Andrés, B., Gaspar, ML. J Inn Inmmunol. (2014) 6: 499-514

PUBMED DOI

Notch1 regulates progenitor cell proliferation and differentiation during murine yolk sac hematopoiesis

Isabel Cortegano, Pedro Melgar-Rojas, Luis Luna-Zurita, Miguel Ángel Rodríguez-Marcos, MA., Gaspar ML., and José Luis de la Pompa, JL. Cell death and diff. (2014) 21: 1081-1094

PUBMED DOI

Timely Diagnosis of Histoplasmosis in Non-endemic Countries: A Laboratory Challenge

Buitrago MJ, Martín-Gómez T. Front Microbiol. 2020 Mar 24; 11:467

PUBMED DOI

Content with Investigacion Investigación sobre Anomalías Congénitas .

Additional Information

Our objectives are research into well-established autochthonous viruses (Toscana, West Nile and Lymphocoriomeningitis), imported viruses with a vector in Spain (mainly Zika, Dengue and Chikungunya), and viruses that cause haemorrhagic fevers (such as Ebola, Lassa or Crimea Congo, which despite being autochthonous, we include in this category) without forgetting other viruses that, at any time, may become emerging viruses and cause public health alerts.

The group's main research objective is to identify and characterise the aforementioned viruses that cause disease and those circulating in our environment with pathogenic potential.

One of the cross-cutting objectives of the laboratory is to optimise methods for the detection of these viruses and their application to determine the incidence, prevalence and/or presence of the viruses in our environment.

However, in addition to methodological development, it is important to know the origin of the circulating viruses, their antigenic relationships with related viruses, the pathogenicity of the different isolates or the interactions of the agents with their host both in cell culture and in arthropod vectors when this is possible. The aim is to strengthen our role as a National Reference Laboratory for zoonoses through research.

Our objectives are research into well-established autochthonous viruses (Toscana, West Nile and Lymphocoriomeningitis), imported viruses with a vector in Spain (mainly Zika, Dengue and Chikungunya), and viruses that cause haemorrhagic fevers (such as Ebola, Lassa or Crimea Congo, which despite being autochthonous, we include in this category) without forgetting other viruses that, at any time, may become emerging viruses and cause public health alerts.

The group's main research objective is to identify and characterise the aforementioned viruses that cause disease and those circulating in our environment with pathogenic potential.

One of the cross-cutting objectives of the laboratory is to optimise methods for the detection of these viruses and their application to determine the incidence, prevalence and/or presence of the viruses in our environment.

However, in addition to methodological development, it is important to know the origin of the circulating viruses, their antigenic relationships with related viruses, the pathogenicity of the different isolates or the interactions of the agents with their host both in cell culture and in arthropod vectors when this is possible. The aim is to strengthen our role as a National Reference Laboratory for zoonoses through research.

Content with Investigacion Investigación sobre Anomalías Congénitas .