Projets par an
Profil personnel
Présentation
In 1984, Guy was appointed as Lecturer at the Univ. of Louvain where he initiated studies on the pathogenesis of Yersinia enterocolitica, a common food-borne agent of benign gastroenteritis which belongs to the same bacterial genus as Yersinia pestis, the agent of plague. These studies led to the discovery of type III secretion (T3S), a concept that was pioneered in parallel by H. Wolf-Watz in Umea, Sweden, and presented in (Cornelis and Wolf-Watz, Mol. Microbiol., 1997, 23: 861-67). T3S is a mechanism by which many Gram- bacteria inject "effector" proteins into the cytosol of animal, plant or insect cells. The effectors disarm the target cell by sabotaging the cellular signaling network. The T3S apparatus, called injectisome, is a complex nanosyringe made of more than 25 different proteins. It consists of a transmembrane basal body and a ca 60-nm long needle protruding from the surface. Yersinia utilize such a system to inject anti-phagocytic and anti-inflammatory effector proteins (called Yops) into cells of the host immune system. The milestones of this research in Guy's laboratory are a) the initial observation that Yops are secreted without the removal of a classical signal sequence (Michiels et al., Infect. Immun. 1990, 58: 2840-9; Michiels and Cornelis, J. Bacteriol. 1991, 173: 1677-85) by T3S System (Michiels et al., J. Bacteriol. 1991, 173: 4994-5009); b) the discovery of a new class of chaperones which assist secretion of some Yop proteins (Wattiau and Cornelis, Mol. Microbiol. 1993, 8: 123-31; Wattiau et al., PNAS 1994, 91: 10493-7; Letzelter et al., EMBO J. 2007, 26: 3015-24); c) the introduction of a reporter system based on the calmodulin-dependant adenylate-cyclase to demonstrate that effectors are injected by the bacterium into the cytosol of target cells (Sory and Cornelis, Mol. Microbiol. 1994, 14: 583-94; Sory et al., PNAS, 1995, 92: 11998-12002; Boland et al., EMBO J. 1996, 15: 5191-5201); d) the demonstration that effector YopP prevents the release of TNF-alpha by macrophages and causes their apoptosis (Mills et al., PNAS 1997, 94: 12638-43; Boland and Cornelis, Infect. Immun. 1998, 66: 1878-84). This was the first demonstration that T3S effectors may have anti-inflammatory properties; e) the demonstration that the length of the injectisome needle is determined by a protein acting as a molecular ruler (Journet et al., Science 2003, 302: 1757-60; Wagner et al., PNAS 2010, 107: 13860-5); f) the demonstration that LcrV, a protective antigen against plague, forms a pentameric structure at the tip of the needle (Mueller et al., Science 2005, 310: 674-6); g) the demonstration of the role of the needle (Mota et al., Science 2005, 307: 1278). h) more recently, the activity of Guy in the field of T3S concerned the assembly and structure of the bacterial injectisome (Sorg et al., EMBO J. 2007, 26: 3015-24; Diepold et al., EMBO J. 2010, 29: 1928-40). In 2004, Guy initiated the study of the pathogenesis of Capnocytophaga canimorsus, a Gram-negative bacterium from the order of Flavobacteria, commonly found in dogs' mouths. This bacterium is responsible for fatal septicemia or meningitis after dog bites or licks. The main observations made so far in the laboratory of Guy are that C. canimorsus resists the assaults of the innate immunity system and elicits little inflammation (Shin et al., J. Infect Dis. 2007, 195: 375-386; Ittig et al., PLoS Pathogens, in press). Strikingly, it appeared that C. canimorsus is endowed with a new mechanism that allows them to feed on glycan chains from host glycoproteins including surface glycoproteins from phagocytes (Mally et al., PLoS Pathog. 2008, 4: e1000164; Manfredi et al., Mol. Microbiol. 2011, 81: 1050-60; Renzi et al., PLoS Pathog. 2011, 7:e1002118). This mechanism not only sustains growth of the pathogen in vivo, but also contributes to neutralize the immune system. These glycan acquisition systems thus represent a new type of bacterial virulence factors.
Domaines de compétence
Molecular Microbiology and Microbial Pathogenesis
Prix/Distinctions
Guy R. Cornelis was appointed Professor (1992) and Ordinary Professor (1997) of the University of Louvain where he chaired the Department of Microbiology-Immunology (1993-2000) and the Graduate School of Biochemistry, Cell Biology and Microbiology (1999-2000). Between 1991 and 2002, his research on Yersinia pathogenesis was conducted at the "Christian de Duve Institute of Cell Pathology" in Brussels. In 2000 he was appointed Ordinary Professor of the University of Basel in Switzerland and in 2001 moved his laboratory to the Biozentrum, where he chaired the Focal Area Infection Biology from 2004 until 2011.
He has served on many scientific advisory boards, including that of the "Institut Pasteur" (1987-1991). He has been an EMBO member since 1998. He served as the "European Chair" of the GORDON Research Conference on Molecular Mechanisms of Bacterial Signalling and Adhesion (1999). Since 2005, he has been listed among the highly-cited scientists by the ISI Web of Knowledge. In 2008, Guy R. Cornelis was elected as a fellow of the American Academy for Microbiology. In 2011, he was awarded an "Advanced Grant" from the European Research Council (ERC) to pursue his study of the molecular aspects of the human infections by C. canimorsus.
Guy R. Cornelis has authored 142 peer-reviewed original papers, 27 peer-reviewed reviews, 39 chapters of books or monographs and collected 13'818 citations (h-index = 66). During this work, he has mentored 31 PhD students and 25 Post-docs. His alumni hold academic positions in Brussels (B), Corvallis (OR, USA), Edmonton (Canada), Galway (Ir), Hannover (D), Lisbon (P), Namur (B), Nottingham (UK), Pamplona (Sp), Paris (F), Toulouse (F) and Utrecht (Nl). More information on: "http://en.wikipedia.org/wiki/Guy_R._Cornelis" , "http://www.biozentrum.unibas.ch/news-events/events/past-events/symposium-guy-r-cornelis/biography/" and "http://www.biozentrum.unibas.ch/about-us/emeriti/"
Diplômes
Guy R. Cornelis graduated as a pharmacist from the University of Louvain (Belgium). As a scholar of the FNRS, he studied Beta-lactamases with Sir E.P. Abraham at the W. Dunn School of Pathology (Oxford UK) and received his doctoral degree from the Univ. of Louvain (1974). He then studied antibiotic resistance plasmids with Sir M.K. Richmond at the Univ. of Bristol (UK), and bacterial transposons with H. Saedler at the Univ. of Freiburg (D) and later at the Max Planck Institute in Cologne (D).
Expertise relative aux objectifs de développement durable des Nations Unies
En 2015, les États membres des Nations Unies ont convenu de 17 objectifs de développement durable (Sustainable Development Goals, SDG) pour éradiquer la pauvreté, protéger la planète et assurer la prospérité de tous. Le travail de cette personne contribue à la poursuite du/des SDG suivant(s) :
Empreinte digitale
- 1 Profils similaires
Projets
- 6 Terminé
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CANITEST: CANITEST: Proof-Of-Concept of a PCR test designed to identify the dogs carrying the more virulent strains of Capnocytophaga
CORNELIS, G. (Responsable du Projet)
1/12/17 → 30/11/18
Projet: Recherche
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POC-PICC: Prévention des Infections humaines à Capnocytophaga canimorsus par dépistage chez le chien
CORNELIS, G. (Responsable du Projet)
1/10/17 → 31/07/18
Projet: Recherche
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SOC: Septicémies d'origine canine
CORNELIS, G. (Responsable du Projet)
1/07/16 → 31/12/18
Projet: Recherche
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POC LipoSurf: Expression de protéines d’intérêt industriel à la surface de Bacteroidetes
CORNELIS, G. (Responsable du Projet)
1/01/16 → 1/01/18
Projet: Recherche
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CAPCAN: Study of the Molecular aspects of the human infections by Capnocytophaga canimorsus
CORNELIS, G. (Responsable du Projet)
1/07/12 → 30/06/16
Projet: Recherche
Résultat de recherche
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Capnocytophaga canimorsus Capsular Serovar and Disease Severity, Helsinki Hospital District, Finland, 2000–2017
Hess, E., Renzi, F., Karhunen, P., Dol, M., Lefevre, A., Antikainen, J., Carlier, E., Hästbacka, J. & Cornelis, G., 25 oct. 2018, Dans: Emerging Infectious Diseases. 24, 12, p. 2195-2201 7 p.Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs
Accès ouvertFile32 Téléchargements (Pure) -
Capsular serovars of virulent Capnocytophaga canimorsus are shared by the closely related species C. canis and C. cynodegmi
Renzi, F., Hess, E., Dol, M., Koudad, D., Carlier, E., Ohlén, M., Moore, E. & Cornelis, G. R., 1 déc. 2018, Dans: Emerging Microbes & Infections. 7, 1, p. 124 124.Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs
Accès ouvertFile21 Téléchargements (Pure) -
LIPOPROTEIN EXPORT SIGNALS AND USES THEREOF
LAUBER, F. (Inventeur), Renzi, F. (Inventeur) & CORNELIS, Guy, R. (Inventeur), 15 févr. 2018, CIB n ° C07K 14/ 195 A I, Brevet n ° WO2018029333, Date de priorité 12 août 2016, Numéro de priorité EP20160183962Titre traduit de la contribution :SIGNAUX D'EXPORTATION DE LIPOPROTÉINES ET LEURS UTILISATIONS Résultats de recherche: Brevet
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METHODS FOR DETECTING C. CANIMORSUS CAPSULAR SEROTYPES IN A SAMPLE
Renzi, F. (Inventeur), Hess, E. (Inventeur) & Cornelis, G. (Inventeur), 23 août 2018, CIB n ° C12Q 1/ 689 A I, Brevet n ° WO2018150011, Date de priorité 17 févr. 2017, Numéro de priorité EP20170156688Titre traduit de la contribution :PROCÉDÉS DE DÉTECTION DE SÉROTYPES CAPSULAIRES DE C. CANIMORSUS DANS UN ÉCHANTILLON Résultats de recherche: Brevet
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USES OF DIPEPTIDYL PEPTIDASE 7 (DPP7) POLYPEPTIDE
Hack, K. (Inventeur), Cornelis, G. (Inventeur), Renzi, F. (Inventeur), Dogné, J.-M. (Inventeur) & Douxfils, J. (Inventeur), 3 janv. 2018, CIB n ° C12N 9/ 64 A I, Brevet n ° EP3263700, Date de priorité 30 juin 2016, Numéro de priorité EP20160177150Titre traduit de la contribution :UTILISATIONS DE LA DIPEPTIDYL PEPTIDASE7 (DPP7) POLYPEPTIDE Résultats de recherche: Brevet
Ensembles de données
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Capsular serovars of virulent Capnocytophaga canimorsus are shared by the closely related species C. canis and C. cynodegmi
Renzi, F. (Contributeur), Hess, E. (Contributeur), Dol, M. (Contributeur), Koudad, D. (Contributeur), Carlier, E. (Contributeur), Ohlén, M. (Créateur), Moore, E. (Créateur) & Cornelis, G. R. (Contributeur), University of Namur, 1 déc. 2018
DOI: 10.6084/m9.figshare.7936823.v1, https://tandf.figshare.com/articles/Capsular_serovars_of_virulent_i_Capnocytophaga_canimorsus_i_are_shared_by_the_closely_related_species_i_C_canis_i_and_i_C_cynodegmi_i_/7936823/1
Ensemble de données
Activités
- 30 Thèse externe
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Assembly and Arrangement of the Type Three Secretion System of Yersinia enterocolitica
Cornelis, G. (Promoteur)
7 juin 2012Activité: Examens › Thèse externe
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The surface structures of Capnocytopha canimorsus and their role in pathogenesis
Cornelis, G. (Promoteur)
8 mars 2012Activité: Examens › Thèse externe
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Capnocytopha canimorsus: Genomic characterization of a specialised host-dependent lifestyle and implications in pathogenesis
Cornelis, G. (Promoteur)
24 févr. 2011Activité: Examens › Thèse externe
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Assembly and Regulation of the Type III Secretion System of Yersinia enterocolitica
Cornelis, G. (Promoteur)
23 juin 2010Activité: Examens › Thèse externe
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Length control of the Yersinia injectisome
Cornelis, G. (Promoteur)
16 déc. 2009Activité: Examens › Thèse externe