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3.A Molecular Bacteriology

Molecular Bacteriology

The Molecular Bacteriology section performs fundamental, translational and application-oriented research on the very diverse roles of bacteria in human health and disease. The main objective is to develop novel approaches for the prevention or treatment of diseases caused by important bacterial human pathogens that are especially threatening to very young, elderly or immune-compromised individuals.

The molecular bacteriological research addresses the mechanisms that lead to virulence and antibiotic resistance of Staphylococcus aureus and Streptococcus pneumoniae in order to identify novel targets for preventive or therapeutic interventions with novel anti-microbial agents, human monoclonal antibodies or vaccines. Additionally, in ecological studies the dynamics of the human gut microbiota and interactions between bacteria are investigated, not only in relation to disease but also in response to interventions with antibiotics or prebiotics and probiotics. A major theme within the bacteriological studies is the analysis of the secretome, which includes all proteins exported to the cell surface and host milieu. This is important, because the secretome is the main reservoir of compounds that influence human health in negative or positive ways. To obtain deeper insights in the roles of the secretome in bacterial fitness, growth, survival and antibiosis, the non-pathogenic model bacterium Bacillus subtilis is also studied by means of Systems Biology approaches.

Project 3.1.1: Bacterial pathogens
Funding: European Commission, SysMO, NWO-ALW, IAG-3, Ubbo Emmius foundation, GUIDE
Project staff: Dr. Jan Maarten van Dijl, Professor of Medical Microbiology; Dr. Girbe Buist, Assistant Professor of Medical Microbiology; Corinna Glasner, PhD fellow; Magda M. van der Kooi-Pol, PhD fellow; Ewoud Reilman, PhD student; Francisco Romero Pastrana, PhD fellow; Eleni Sibbald-Tsompanidou, Postdoc; Dennis G.A.M. Koedijk, technician; Rense Rozeboom, technician


Research on bacterial pathogens addresses the mechanisms that lead to virulence and antibiotic resistance of Staphylococcus aureus and Streptococcus pneumoniae in order to identify novel targets for preventive or therapeutic interventions with novel anti-microbial agents, human monoclonal antibodies or vaccines. An important aspect is the analysis of host-pathogen interactions for which in vitro, ex vivo and in vivo model systems are applied.

Project 3.1.2: Ecological studies
Funding: European Commission, GUIDE
Project staff: Dr. Hermie J.M. Harmsen, Associate Professor of Medical Microbiology; Dr. Gjalt W. Welling, Associate Professor of Medical Microbiology; Dr. Marcus C. de Goffau, Postdoctoral researcher; Mehdi Sadaghian, PhD student; Carien Bus-Spoor, technician; Rudi H.J. Tonk, technician; Viviana Romero Pastrana, PhD student


The ecological studies address the dynamics of the human gut microbiota and interactions between bacteria and their host, not only in relation to disease, but also in response to interventions with antibiotics, prebiotics or probiotics.

Project 3.1.3: Bacterial Fitness and Systems Biology
Funding: European Commission, SysMO, NWO-ALW, IAG-3, Ubbo Emmius foundation, GUIDE
Project staff: Dr. Jan Maarten van Dijl, Professor of Medical Microbiology; Ruben Mars, PhD fellow; Ewoud Reilman, PhD student; Eleni Sibbald-Tsompanidou, Postdoc; Jolanda Neef, PhD student

A major theme within all bacteriological studies is the analysis of the secretome, which includes all proteins exported to the cell surface and host milieu. This is important, because the secretome is the main reservoir of compounds that influence human health in negative or positive ways. To obtain deeper insights in the roles of the secretome in bacterial fitness, growth, survival and antibiosis, the non-pathogenic model bacterium Bacillus subtilis is studied by means of Systems Biology approaches.

Project 3.1.4: Streptococcus pneumoniae and invasive disease
Funding:  
Project staff: Henrik Gradstedt, PhD student; Federico Iovino, PhD student; Francisco Romero Pastrana, PhD fellow

Epithelial and endothelial cells form mechanical barriers that maintain the integrity of body compartments. Extracellular bacterial often traverse these boundaries, resulting in invasion of the deeper tissues and concomitant disease. How the bacteria cross these barriers is still poorly understood. To study pathogen translocation over endothelial cell layers, I use the Gram-positive bacterium Streptococcus pneumoniae as a model system. Streptococcus pneumoniae (the pneumococcus) is a common cause of respiratory disease and serious invasive diseases such as pneumonia, sepsis and meningitis. A prerequisite for invasive disease is entry of the bacteria into the bloodstream or translocation of the blood-brain barrier, both of which require Streptococcus pneumoniae to cross endothelial cell layers. Although Streptococcus pneumoniae is regarded as an extracellular pathogen, it invades eukaryotic cells both in vitro and in vivo. Invasion is thought to be the first step in a specific and receptor-mediated intracellular process of Streptococcus pneumoniae traversal over eukaryotic cell layers that significantly contributes to the pathogenesis of the bacterium. Research in my group is aimed at understanding the interaction between the bacteria and the host cells, in particular endothelial cells.

The main research topics are:

There are continuously opportunities for master students to perform their research projects on these topics. Students interested in any of the above topics and people interested in PhD or Post doc opportunities are encouraged to contact us.

Principal investigator

Jan Maarten van DjilJan Maarten van Dijl
Prof. dr.
Molecular Bacteriology - Professor for Molecular Bacteriology

Tel: +31.(0)50.361 5187
Mail: J. Maarten van Dijl

 

Postadres:
Department for Medical
Microbiology and Infection Control
University Hospital Groningen, hpc EB 80
Hanzeplein 1
9713 GZ Groningen
Postbus 30.001
9700 RB Groningen Nederland

 

Girbe BuistHermie J.M. Harmsen
dr. ir., Associate Professor Medical Microbiology -
Universitair Hoofddocent

Tel: +31.(0)50.361 51 86
Mail: Hermie Harmsen

 

Girbe BuistGirbe Buist
dr., Assistant Professor of
Molecular Bacteriology - Universitair Docent

Tel: +31.(0)50.361 5190
Mail: Girbe Buist

 

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