We protect your health through science
Investigation
Immunobiology
Publications
Outbreak of invasive meningococcal disease caused by a meningococcus serogroup B expressing a rare porA genosubtype (19-54, 15), Spain, March to April 2024.
Abad R, Navarro C, García-Amil C, Montes M, Castañeda-García A, Cuadros JA, Galar A, Martin F, Mena E, Pérez de Madrid S, Román C, Soler M, Vázquez JA. Euro Surveill. 2025 Nov;30(44):2500222
PUBMED DOITrends in invasive bacterial diseases during the first 2 years of the COVID-19 pandemic: analyses of prospective surveillance data from 30 countries and territories in the IRIS Consortium
Shaw D, Abad R, Amin-Chowdhury Z, Bautista A, Bennett D, Broughton K, Cao B, Casanova C, Choi EH, Chu YW, Claus H, Coelho J, Corcoran M, Cottrell S, Cunney R, Cuypers L, Dalby T, Davies H, de Gouveia L, Deghmane AE, Demczuk W, Desmet S, Domenech M, Drew R, du Plessis M, Duarte C, Erlendsdóttir H, Fry NK, Fuursted K, Hale T, Henares D, Henriques-Normark B, Hilty M, Hoffmann S, Humphreys H, Ip M, Jacobsson S, Johnson C, Johnston J, Jolley KA, Kawabata A, Kozakova J, Kristinsson KG, Krizova P, Kuch A, Ladhani S, Lâm TT, León ME, Lindholm L, Litt D, Maiden MCJ, Martin I, Martiny D, Mattheus W, McCarthy ND, Meehan M, Meiring S, Mölling P, Morfeldt E, Morgan J, Mulhall R, Muñoz-Almagro C, Murdoch D, Murphy J, Musilek M, Mzabi A, Novakova L, Oftadeh S, Perez-Argüello A, Pérez-Vázquez M, Perrin M, Perry M, Prevost B, Roberts M, Rokney A, Ron M, Sanabria OM, Scott KJ, Sheppard C, Siira L, Sintchenko V, Skoczyńska A, Sloan M, Slotved HC, Smith AJ, Steens A, Taha MK, Toropainen M, Tzanakaki G, Vainio A, van der Linden MPG, van Sorge NM, Varon E, Vohrnova S, von Gottberg A, Yuste J, Zanella R, Zhou F, Brueggemann AB. Lancet Digit Health. 2023 Sep;5(9):e582-e593.
PUBMED DOIEffectiveness of a Meningococcal Group B Vaccine (4CMenB) in Children
Castilla J, García Cenoz M, Abad R, Sánchez-Cambronero L, Lorusso N, Izquierdo C, Cañellas Llabrés S, Roig J, Malvar A, González Carril F, Boone ALD, Pérez Martín J, Rodríguez Recio MJ, Galmés A, Caballero A, García Rojas A, Juanas F, Nieto M, Viloria Raymundo LJ, Martínez Ochoa E, Rivas AI, Castrillejo D, Moreno Pérez D, Martínez A, Borràs E, Sánchez Gómez A, Pastor E, Nartallo V, Arteagoitia JM, Álvarez-Fernández B, García Pina R, Fernández Arribas S, Vanrell J, García Hernández S, Mendoza RM, Méndez M, López-Tercero MM, Fernández-Rodríguez Á, Blanco Á, Carrillo de Albornoz FJ, Ruiz Olivares J, Ruiz-Montero R, Limia A, Navarro-Alonso JA, Vázquez JA, Barricarte A. N Engl J Med. 2023 Feb 2;388(5):427-438
PUBMED DOIPertactin-Deficient Bordetella pertussis with Unusual Mechanism of Pertactin Disruption, Spain, 1986-2018
14. Mir-Cros A, Moreno-Mingorance A, Martín-Gómez MT, Abad R, Bloise I, Campins M, González-Praetorius A, Gutiérrez MN, Martín-González H, Muñoz-Almagro C, Orellana MÁ, de Pablos M, Roca-Grande J, Rodrigo C, Rodríguez ME, Uriona S, Vidal MJ, Pumarola T, Larrosa MN, González-López JJ. Emerg Infect Dis. 2022 May;28(5):967-976
PUBMED DOIAdditional Information
Doctoral theses
“Expression and functionality of tlr2 and tlr4 in lymphomyeloid populations present in the lung and lymphoid organs during embryonic and neonatal life in mouse models.” Carolina Ruiz Sánchez. Complutense University of Madrid, 2022
Master's thesis
Detection and characterization of extracellular vesicles of platelet origin in lung supernatants from SPN-infected animals. Marta Paris, Alcalá University, 2024
Study of TLR-dependent activation in the RAW 264.7 macrophage line. Iñigo Merino de Saracho, Alcalá University, 2023
Study of the functionality of TLR receptors in the lung and other lymphoid organs in B cell populations using the neonatal mouse model. Yolanda Campanero, Alcalá University, 2023
Exploratory study of T lymphoid progenitors in the neonatal mouse lung. Alejandro Arrabal, Complutense University of Madrid, 2022
Study of B lymphoid differentiation in mice deficient for CD5 and CD6 molecules. Cristina Martín, Alcalá University, 2022
Role of platelets and their progenitor cells in two animal models of infection: SPN and RSV. Ana de Lucas Rius, Alcalá University, 2020
Pilot study of RSV infection in the mouse model: cellular phenotype of myeloid and lymphoid populations in the lung in two animal models of infection: SPN and RSV. Juan Antonio Martín Quesada, Alcalá University, 2020
B cell response during Streptococcus pneumoniae infection. Eva Castro, 2020
Study of the hematopoietic potential of neonatal lung cells in the mouse model. Ana Cogollo García, Alcalá University, 2018
Innate immune response to S. pneumoniae in the lung. Rodrigo Sánchez, Complutense University of Madrid, 2018
Neonatal immunity in the mouse model: localization and function of the innate and adaptive response. Alba Ezequiel Fernández, Alcalá University, 2017
Characterization of immunoglobulin gene diversity in the mouse model of TLR4 homeostasis and activation by bacterial lipopolysaccharide. Cristina García Caballero, Alcalá University, 2017
Altered lymphopoiesis and splenic B cell subsets on Telomerase Activity Deficient Mice (TERC-/-). Juliana Manosalva, Complutense University of Madrid, 2017
Study of the Immune Response in Nasopharyngeal Washings of Infants with Bronchiolitis. Isabel Martín Barrios, Complutense University of Madrid, 2016
Dynamics of B1-REL lymphocytes in the in vivo immunization model with DNP-LPS. Inmaculada Sanz Ramos University Alcalá, 2015
Megakaryocyte differentiation pathways in the mouse model. Marta Cobos Briz, Alcalá University, 2015
Role of megakaryocytes in infectious processes. Melania Guerrero Hue, Complutense University of Madrid, 2015
Final degree projects
Study of new bacterial vaccines in the mouse (Mus musculus) infection model due to Streptococcus pneumoniae. Alejandro Arrabal, Polytechnic University of Madrid, 2021
Megakaryocytes and platelets in SPN respiratory infection: Role of TLR4. Óscar González Hervás, Complutense University of Madrid, 2021
Study of the immune response mediated by pseudo-innate B lymphocytes against TLR4-dependent immunization models. Rodrigo Sánchez, Complutense University of Madrid, 2017.
Study of the diversity in the immunoglobulin repertoire in healthy individuals. Isabel Martín, Francisco de Vitoria University, 2015.
Dynamics of hematopoietic populations in the perinatal spleen. Inmaculada Sanz, Alcalá University, 2014
Teaching in training courses
Training course: Introduction to Flow Cytometry (from 2015 to present)
Training Course: Flow Cytometry Data Analysis (2018 to present)
Outreach / Citizen Science
• Collaboration in the 4th+Company CAM program.
• Collaboration with the ISCIII Scientific Culture Unit in Science Week at the ISCIII
• Scientific Dissemination Project "Talking about Science", carried out in Majadahonda primary, secondary and high school schools, since 2015 in collaboration with the Department of Education and Youth of the Majadahonda City Council: “How your Immune System works and healthy lifestyle habits to take care of it”
Doctoral theses
“Expression and functionality of tlr2 and tlr4 in lymphomyeloid populations present in the lung and lymphoid organs during embryonic and neonatal life in mouse models.” Carolina Ruiz Sánchez. Complutense University of Madrid, 2022
Master's thesis
Detection and characterization of extracellular vesicles of platelet origin in lung supernatants from SPN-infected animals. Marta Paris, Alcalá University, 2024
Study of TLR-dependent activation in the RAW 264.7 macrophage line. Iñigo Merino de Saracho, Alcalá University, 2023
Study of the functionality of TLR receptors in the lung and other lymphoid organs in B cell populations using the neonatal mouse model. Yolanda Campanero, Alcalá University, 2023
Exploratory study of T lymphoid progenitors in the neonatal mouse lung. Alejandro Arrabal, Complutense University of Madrid, 2022
Study of B lymphoid differentiation in mice deficient for CD5 and CD6 molecules. Cristina Martín, Alcalá University, 2022
Role of platelets and their progenitor cells in two animal models of infection: SPN and RSV. Ana de Lucas Rius, Alcalá University, 2020
Pilot study of RSV infection in the mouse model: cellular phenotype of myeloid and lymphoid populations in the lung in two animal models of infection: SPN and RSV. Juan Antonio Martín Quesada, Alcalá University, 2020
B cell response during Streptococcus pneumoniae infection. Eva Castro, 2020
Study of the hematopoietic potential of neonatal lung cells in the mouse model. Ana Cogollo García, Alcalá University, 2018
Innate immune response to S. pneumoniae in the lung. Rodrigo Sánchez, Complutense University of Madrid, 2018
Neonatal immunity in the mouse model: localization and function of the innate and adaptive response. Alba Ezequiel Fernández, Alcalá University, 2017
Characterization of immunoglobulin gene diversity in the mouse model of TLR4 homeostasis and activation by bacterial lipopolysaccharide. Cristina García Caballero, Alcalá University, 2017
Altered lymphopoiesis and splenic B cell subsets on Telomerase Activity Deficient Mice (TERC-/-). Juliana Manosalva, Complutense University of Madrid, 2017
Study of the Immune Response in Nasopharyngeal Washings of Infants with Bronchiolitis. Isabel Martín Barrios, Complutense University of Madrid, 2016
Dynamics of B1-REL lymphocytes in the in vivo immunization model with DNP-LPS. Inmaculada Sanz Ramos University Alcalá, 2015
Megakaryocyte differentiation pathways in the mouse model. Marta Cobos Briz, Alcalá University, 2015
Role of megakaryocytes in infectious processes. Melania Guerrero Hue, Complutense University of Madrid, 2015
Final degree projects
Study of new bacterial vaccines in the mouse (Mus musculus) infection model due to Streptococcus pneumoniae. Alejandro Arrabal, Polytechnic University of Madrid, 2021
Megakaryocytes and platelets in SPN respiratory infection: Role of TLR4. Óscar González Hervás, Complutense University of Madrid, 2021
Study of the immune response mediated by pseudo-innate B lymphocytes against TLR4-dependent immunization models. Rodrigo Sánchez, Complutense University of Madrid, 2017.
Study of the diversity in the immunoglobulin repertoire in healthy individuals. Isabel Martín, Francisco de Vitoria University, 2015.
Dynamics of hematopoietic populations in the perinatal spleen. Inmaculada Sanz, Alcalá University, 2014
Teaching in training courses
Training course: Introduction to Flow Cytometry (from 2015 to present)
Training Course: Flow Cytometry Data Analysis (2018 to present)
Outreach / Citizen Science
• Collaboration in the 4th+Company CAM program.
• Collaboration with the ISCIII Scientific Culture Unit in Science Week at the ISCIII
• Scientific Dissemination Project "Talking about Science", carried out in Majadahonda primary, secondary and high school schools, since 2015 in collaboration with the Department of Education and Youth of the Majadahonda City Council: “How your Immune System works and healthy lifestyle habits to take care of it”
The current director of CNM is Dr. José Miguel Rubio Muñoz.
Dr. José Miguel Rubio has a degree in Biological Sciences from the Universidad Autónoma de Madrid (1986) and a PhD in Biological Sciences from the same university (1992). He carried out his doctoral thesis at the Department of Genetics of the Universidad Autónoma de Madrid, as Associate Professor (1988-1989), and at the School of Biology of the University of East Anglia in Norwich, UK, as Senior Research Assistant (1989-1992).
During his postdoctoral period he obtained a grant from the European Commission within the Human Capital and Mobility Program to be carried out at the University of “La Sapienza” in Rome, Italy and the Institute of Molecular Biology and Biotechnology in Crete, Greece (1993-1994). Subsequently, he made a further stay funded by the WHO and the university itself at the Department of Entomology, Wageningen University, The Netherlands (1994-1996).
Since 1997 he has been a member of the Instituto de Salud Carlos III (ISCIII), where he joined the Department of Parasitology of the National Center of Microbiology, as an EU-INCO postdoctoral fellow and later with a grant from the Autonomous Community of Madrid (CAM). She was part of the founding group of the National Center for Tropical Medicine (2003-2006) and of the 24/7 Alerts and Emergencies Unit (2006-2018) and is currently Head of the Malaria and Emerging Parasitosis Unit of the National Microbiology Center and is part, as research staff, of the Center for Biomedical Research Network on Infectious Diseases (CIBERINFEC/ISCIII).
During his scientific career he has been Visiting Scientist at the Leonidas e Marie Dean Center (FIOCRUZ-AMAZONAS, Manaus, Brazil) and is an External Consultant of the Parasitology Departments of Cairo University (Egypt) and the Medical Research Center (MRC) of Kuala Lumpur (Malaysia). He also belongs or has belonged to different national and international committees: Member of the expert group for malaria control of the European Centre for Disease Control (ECDC) since 2011; Expert-Evaluator for health programs of the European Commission since 2004; Spanish Representative (commissioned by ISCIII and MSC) in the Technical Scientific Committee of the TDR (WHO) 2007-2008; Spanish Deputy Focal Point for microbiology at the European Centre for Disease Control (ECDC) from 2012 to 2020; and, member of the Research Ethics Committee of ISCIII until 2019.
In this period he has published more than 100 articles in international indexed journals, 10 book chapters and has been co-editor of two books in the area of malaria, tropical medicine and neglected diseases. He has participated in 58 competitively funded research projects, 20 of them international, having been the principal investigator in 8 national and 11 international projects as PI of the project or WP leader. In addition, he has led five agreements with companies. Currently he has been awarded four sexenios of research, being presented this year 2025 to the fifth. In the teaching field, he participates in different postgraduate programs in the areas of microbiology and parasitology, having directed seven doctoral theses and more than 20 Master's or Degree final projects, both nationally and internationally.
El laboratorio de Referencia e Investigación en Resistencia a Antibióticos ofrece una amplia cartera de servicios al Sistema Nacional de Salud, las cuales pueden solicitarse en cnm-laboratorios.isciii.es. Jefe del Laboratorio: Jesús Oteo Iglesias (Punto focal Nacional de Resistencia antibiótica).
Dispone de dos programas de Vigilancia oficiales y gratuitos que engloban los ensayos ofertados ya sea como aislamientos individuales o mediante estudio de brotes. El Laboratorio utiliza asimismo técnicas de PCR en tiempo real para la detección de genes de resistencia, estas técnicas se han adaptado a un formato multiplex que permite detectar varios genes en la misma reacción. En los últimos años se han incluido metodologías basadas en la secuenciación de genomas completos para el análisis de bacterias multiresistentes (WGS).
Programa de vigilancia de Haemophilus influenzae. Responsables: María Pérez Vázquez (Punto focal Nacional de Haemophilus influenzae) y Belén Aracil. Laboratorio encargado de la identificación, estudio de sensibilidad y análisis genotípico de aislados de Haemophilus influenzae, centrándose esencialmente en la patología invasiva debida este patógeno.
Programa de vigilancia de Resistencia a Antibióticos. Responsables: María Pérez Vázquez y Belén Aracil (Punto focal Nacional de Resistencia antibiótica). Laboratorio encargado de la identificación, el estudio de sensibilidad antibiótica, y el diagnóstico fenotípico y genotípico de los diferentes mecanismos de resistencia a antibióticos fundamentalmente en enterobacterias y gram-negativos no fermentadores y Enterococcus spp.
Estudio de brotes. Responsables: Belén Aracil y María Pérez Vázquez. El programa incluye la caracterización de brotes nosocomiales y clones emergentes de alto riesgo mediante diferentes técnicas moleculares (tabla resumen). Éstas, nos permiten realizar estudios filogenéticos con el fin de obtener una información detallada acerca la relación entre los diferentes aislados y su trazabilidad. El objetivo final es generar datos que se transfieren a los hospitales como ayuda para la prevención o control de la propagación del brote.
Acreditación y Calidad. Responsable: Belén Aracil. El laboratorio Referencia e Investigación en Resistencia a Antibióticos ha sido de los primeros en el ISCIII en la utilización de técnicas acreditadas por la Entidad Nacional de Acreditaciones (ENAC). Este laboratorio consiguió la primera acreditación homologada de técnicas diagnósticas en 2012, programa que ha sido ampliado, de manera que en la actualidad más de la mitad de las técnicas ofrecidas al Sistema Nacional de Salud están debidamente acreditadas por ENAC.
Técnicos responsables de las técnicas realizadas en el Laboratorio: Noelia Lara Fuella y Verónica Bautista Sánchez.
En la siguiente imagen se resumen las técnicas ofrecidas al Sistema Nacional de Salud.
| PROGRAMAS | NOMBRE CARTERA SERVICIO | PATÓGENO | DETERMINACIÓN, DETECCIÓN, ANÁLISIS | MÉTODOS |
|
Programa de vigilancia de Haemophilus Programa de vigilancia de resistencia a antibióticos. |
Identificación bacteriana |
Haemophilus sp. Enterobacterias, gram-negativos no fermentadores, Enterococcus spp |
Identificación bacteriana |
Bioquímicos MALDI TOF Secuenciación de RNAr |
| | Identificación capsular |
Haemophilus influenzae
|
Identificación capsular fenotípica y genotípica |
Aglutinación serológica en latex PCR ind/multiplex |
| | Determinación de Sensibilidad |
Haemophilus sp. Enterobacterias, gram-negativos no fermentadores, Enterococcus
|
Determinación de Sensibilidad |
Microdilución Tiras epsilon Kirby Bauer |
| | Métodos fenotípicos de detección de mecanismos de resistencia |
Enterobacterias, gram-negativos no fermentadores,
|
Métodos fenotípicos de detección de mecanismos de resistencia |
Discos y tabletas combinados con inhibidores Tiras combinadas Test de Hodge modificado CabaNP Inmunocromatografía CBP |
| | Métodos genotípicos de detección de mecanismos de resistencia |
Haemophilus sp. Enterobacterias, gram-negativos no fermentadores, Enterococcus
|
ADN, PCR y secuenciación |
PCR ind/multiplex Análisis comparativo de las secuencias |
| | Tipificación molecular/análisis filogenéticos |
Haemophilus sp. Enterobacterias, gram-negativos no fermentadores, Enterococcus
|
Corte enzimas de restricción, electroforesis ADN, PCR y secuenciación Preparación de librerías y secuenciación y análisis de genomas completos |
PFGE
MLST
WGS |