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C.difficile in petri dish. Credit: LSHTM

WrenLab

We are a research lab aiming at dissecting the molecular mechanisms underlying bacterial pathogenesis and at utilising bacteria as biotechnologies to produce glycoconjugate vaccine candidates. Our lab is led by Professor Brendan Wren and is located in the Department of Infection Biology (DIB) at the London School of Hygiene and Tropical Medicine (LSHTM).

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Bacterial Pathogenesis

We work on determining the genetic basis by which bacterial pathogens function, evolve and cause disease. Research on individual pathogens include Clostridium difficile, Campylobacter jejuni, Helicobacter pylori, Burkholderia pseudomallei, Acinetobacter baumannii, Francisella tularensis, Streptococcus pneumoniae, Streptococcus suis, Actinobacillus pleuropneumoniae, Vibrio cholerae, group A and group B streptococci (GAS and GBS) and the enteropathogenic Yersinia.

Use of bacteria

Basic research on bacteria and their glycosylation systems has enabled us and others to develop glycoengineering tools in E. coli through a process termed Protein Glycan Coupling Technology (PGCT) or bioconjugation. The major application of this biotechnology is the production of more affordable recombinant glycoconjugate vaccines. To date, we have used this technology to produce novel recombinant Campylobacter, S. pneumoniae, Francisella, Brucella and Shigella glycoconjugate vaccine candidates for human and veterinary use.

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About
About WrenLab
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Our lab is in the Department of Infection Biology (DIB) at the London School of Hygiene and Tropical Medicine (LSHTM) where we research the molecular mechanisms of bacterial pathogenesis and utilise bacteria as biotechnologies to produce glycoconjugate vaccine candidates.

Who we are
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Profiles List
Prof Brendan Wren

Brendan
Wren

Professor of Microbial Pathogenesis
Professor of Microbial Pathogenesis and Lab Head

Professor of microbial pathogenesis and dean of faculty of infectious and tropical diseases. Co-head of the Vaccine Centre. 

Dr Vanessa Agostinho Terra

Vanessa
Agostinho Terra

Assistant Professor
Dr Richard Stabler

Richard
Stabler

Associate Professor
Postdocs

Interested in understanding the biological role of N-linked glycans and unravelling the function of glycosylation systems in different organisms. Parallel to my basic biology research, I am also interested in the biotechnological applications that could be branched from exploiting bacterial glycosylation systems in order to develop conjugate vaccines and perhaps humanized glycoproteins. 

Elizabeth Atkins

Molecular biologist

Molecular biologist working on in vitro glycosylation reactions for the generation of glycoconjugate vaccines against bacterial diseases. Currently working on candidate vaccines for meningitis in partnership with the lab of Jeremy Brown (UCL).

Catherine
Hall

Research Fellow
Molecular microbiologist

Molecular microbiologist investigating the pathogenesis of Clostridium difficile and the development of novel vaccines against C. difficile and Shigella species. 

Mark
Harrison

Research Fellow

Microbiologist working on Clostridium difficile with an interest in virulence factors, such as para-cresol, as well as how C. difficile controls lifestyle choice including sporulation and biofilm formation. Currently working on glycoengineering to develop Group A Streptococcus (GAS) vaccines.

Emily Kay

Molecular microbiologist

Molecular microbiologist optimising Glycan Expression Technology (GET), with a primary focus on Streptococcus pneumoniae capsular polysaccharides. Glyco-tailoring Escherichia coli to engineer the optimal chassis for bespoke glycoconjugate vaccines.

Molecular / computational biologist

Molecular / computational biologist; currently working as part of the one health poultry hub consortium consisting of five countries UK, India, Bangladesh and Viet Nam. Researching on transmission pathways of zoonotic pathogens and antimicrobial resistance (AMR) across food networks, with the hope of developing insights into intervention strategies against the spread of AMR. Working on the design and development of glycoconjugate vaccine candidates against Streptococcus pneumoniae, Campylobacter species, and Salmonella enterica using the PGCT biotechnology (bioconjugation). 

Marta Mauri

Molecular microbiologist

Molecular biologist working on the design and development of glycoconjugate vaccine candidates against Streptococcus pneumoniae, Campylobacter species, and Salmonella enterica using the PGCT biotechnology (bioconjugation).  Member of the consortium aimed at refining a sustainable GMP process to produce bioconjugate vaccines.

Fauzy Nasher

Molecular biologist and cell biologist

Molecular biologist and cell biologist working on Campylobacter and Streptococcus pneumoniae pathogen-host interactions, with a specific interest in studying the amoeba Acanthamoeba and its interactions with bacteria. 

Mr Ian Passmore

Ian
Passmore

Research Fellow
Molecular biologist

Molecular biologist developing novel tools for glycoengineering to optimise production of glycoconjugate vaccines against porcine pathogens and Group A Streptococcus (GAS).

WrenLab Alumni 2 columns
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Alumni

  • Lisa Dawson
  • Timothy Scott
  • Jennifer Dow
  • Sam Willcocks
  • Keira Burns (co-supervised with NIBSC)
  • Neha Patel (co-supervised with UCL)
  • Hilary Brown (co-supervised with WTSI)
  • Leanne Kane (co-supervised with WTSI)
  • Marie-Christine Bartens (co-supervised with RVC)              
  • Cadi Davies
  • Janie Liaw
  • Geunhye Hong
  • Alexandra Faulds-Pain
  • Esmeralda Valiente
  • Dennis Linton
  • Laura Yates
  • Dominic Mills
  • Andrey V. Karlyshev

And many more…

Research
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Research within the Wren group predominantly involves determining the genetic basis by which bacterial pathogens function, evolve, cause disease, and how they develop antimicrobial resistance (AMR). Research on individual pathogens include Clostridium difficile, Campylobacter jejuni, Helicobacter pylori, Burkholderia pseudomallei, Acinetobacter baumannii, Francisella tularensis, Streptococcus pneumoniae, Streptococcus suis, Actinobacillus pleuropneumoniae, Vibrio cholerae, group A and group B streptococci (GAS and GBS) and the enteropathogenic Yersinia.

A core interest within the group has focused on bacterial glycostructures, including the characterization of lipo-oligosaccharides, capsular polysaccharides and glycosylation systems. This basic research has enabled us to develop glycoengineering tools in E. coli through a process termed Protein Glycan Coupling Technology (PGCT) or bioconjugation. The major application of this biotechnology is the production of more affordable recombinant glycoconjugate vaccines. To date, we have used the technology to produce novel recombinant Campylobacter, S. pneumoniae, Francisella, Brucella and Shigella glycoconjugate vaccines candidates for human and veterinary use.

Bacterial pathogenesis
illustration of bacteria

The team researches many different aspects of the pathogenicity and AMR of Streptococcus pneumoniae, group A and group B Streptococci (GAS and GBS), Campylobacter jejuni and Clostridium difficile.

These include gaining further insights into the incidence and virulence of Streptococcus species (S. pneumoniae, GAS and GBS), especially S. pneumoniae serotype 1, which is amongst the most common serotypes associated with invasive pneumococcal disease (IPD), particularly in Sub-Saharan Africa, South America and Asia where it is often associated with outbreaks, as well as improving mutagenesis tools to study clinical isolates and developing targeted bioconjugate vaccines.

In Campylobacter research we explore the role of oxidative and aerobic stress response mechanisms during bacterial interactions with hosts cells and survival in the environment; the role of outer membrane vesicles (OMVs) in the delivery of bacterial effector proteins into host cells; the role of the Type VI Secretion System (T6SS) during bacterial interactions with hosts cells and survival in the environment; the genetic mechanisms controlling the biogenesis of OMVs; the role of the Unfolded Protein Response during C. jejuni intracellular survival; the interactions between amoebas hosts and bacteria and their role as bacterial reservoirs. Further studies with both government and industrial collaborators are investigating potential intervention strategies to reduce the survival of C. jejuni in chickens using microbiome-based approaches.

We specialise in a genome to phenome approach to understand virulence traits of the important human pathogen C. difficile and to decipher C. difficile interactions with the host microbiome. We intend to elucidate the inhibitory role of para-cresol, a phenolic compound produced by C. difficile on the host microbiome; to dissect lifestyle switching between vegetative cells, spores and biofilms and its role in colonisation and relapse of C. difficile infections and to identify and characterise immunogenic proteins and their potential use in vaccine development.

Glycoengineering and Vaccine development
Illustration of workflow process for Glycoconjugate vaccine

The team researches fundamental and translational questions about glycosylation systems in bacteria. The research that we are carrying out begins by asking why some bacteria have glycosylation systems and tries to understand how these are regulated. We also have a thriving body of work researching methods to optimise glycoconjugate assembly using biological conjugation systems. We term this process, Protein Glycan Coupling Technology (PGCT). In addition, we investigate how to express polysaccharide coding regions heterologously, a method we term Glycan Expression Technology (GET). Several of our projects are focusing on the application of the latest glycoengineering knowledge to develop novel solutions for both human and animal diseases with a strong emphasis on the development of glycoconjugate vaccines against bacterial infectious diseases of global concern.

 

Publications
Publications (Feed)
Publications List
Knetsch, CW; Kumar, N; Forster, SC; Connor, TR; Browne, HP; Harmanus, C; Sanders, IM; Harris, SR; Turner, L; Morris, T; Perry, M; Miyajima, F; Roberts, P; Pirmohamed, M; Songer, JG; Weese, JS; Indra, A; Corver, J; Rupnik, M; WREN, BW; Riley, TV; Kuijper, EJ; Lawley, TD;
2017
Journal of clinical microbiology, (2017).56 3
Bricio-Moreno, L; EBRUKE, C; Chaguza, C; Cornick, J; Kwambana-Adams, B; Yang, M; MACKENZIE, G; WREN, BW; Everett, D; ANTONIO, M; Kadioglu, A;
2017
The Journal of infectious diseases, (2017).216 10
Peltier, J; Shaw, HA; WREN, BW; Fairweather, NF;
2017
Scientific reports, (2017).7 1
Bokhari, H; Ali, A; Noreen, Z; THOMSON, N; WREN, BW;
2017
Gene, (2017).628,
Howell, KJ; Weinert, LA; Peters, SE; Wang, J; Hernandez-Garcia, J; Chaudhuri, RR; Luan, S-L; Angen, Ø; Aragon, V; Williamson, SM; Langford, PR; Rycroft, AN; WREN, BW; Maskell, DJ; Tucker, AW;
2017
Journal of clinical microbiology, (2017).55 9
Hernandez-Garcia, J; Wang, J; Restif, O; Holmes, MA; Mather, AE; Weinert, LA; Wileman, TM; Thomson, JR; Langford, PR; WREN, BW; Rycroft, A; Maskell, DJ; Tucker, AW; BRADP1T Consortium,;
2017
Veterinary microbiology, (2017).207,
CAIRNS, MD; Preston, MD; HALL, CL; Gerding, DN; Hawkey, PM; Kato, H; Kim, H; Kuijper, EJ; Lawley, TD; Pituch, H; Reid, S; Kullin, B; Riley, TV; Solomon, K; Tsai, PJ; Weese, JS; STABLER, RA; WREN, BW;
2017
Journal of clinical microbiology, (2017).55 6
Jones, NR; Millman, C; Van der Es, M; Hukelova, M; Forbes, KJ; Glover, C; Haldenby, S; Hunter, PR; Jackson, K; O'Brien, SJ; Rigby, D; Strachan, NJ C; Williams, N; Lake, IR; ENIGMA Consortium,;
2017
Applied and Environmental Microbiology, (2017).83 14
Bossé, JT; Li, Y; Rogers, J; Fernandez Crespo, R; Li, Y; Chaudhuri, RR; Holden, MT G; Maskell, DJ; Tucker, AW; WREN, BW; Rycroft, AN; Langford, PR;
2017
Frontiers in microbiology, (2017).8 MAR
Kelly, C; GUNDOGDU, O; Pircalabioru, G; Cean, A; Scates, P; Linton, M; Pinkerton, L; Magowan, E; Stef, L; Simiz, E; Pet, I; Stewart, S; STABLER, R; WREN, B; DORRELL, N; Corcionivoschi, N;
2017
Foodborne pathogens and disease, (2017).14 6
Lab sustainability
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Events
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4th Annual Network Meeting 2023

BactiVac are delighted to announce their will be hosted at the  on 18 – 19 October 2023. 

The two-day event will allow members to hear from .