Etude de la Cytolethal Distending Toxin B des Hélicobacters dans l’inflammation et la carcinogenèse digestive / Study of the Cytolethal Distending Toxin B of Helicobacters in inflammation and gastrointestinal carcinogenesis

Péré-Védrenne, Christelle

16 December 2015

La démonstration du rôle de la CDT (« Cytolethal Distending Toxin ») de Helicobacterhepaticus dans le développement de l’hépatocarcinome murin fait de cette toxine un candidatpertinent dans l'activation de processus pro-cancéreux. Comme la toxine CagA de Helicobacterpylori, la sous-unité active CdtB de la CDT pourrait être une oncoprotéine. Nous avons étudié lerôle de la CdtB des Hélicobacters dans l’inflammation et la carcinogenèse digestive via unestratégie lentivirale d’expression constitutive ou conditionnelle de la CdtB ou de son mutant pourl’activité DNase. Nous avons réalisé une étude du transcriptome et montré que la CdtB deH. hepaticus induisait une réponse inflammatoire en surexprimant des cytokines, chimiokines,peptides antimicrobiens et en activant la voie du NF-κB des cellules épithéliales. La CdtB réguleégalement l’expression et la localisation nucléaire du facteur de transcription et oncogène MafB.Ces résultats ont été confirmés pour la CdtB de Helicobacter pullorum. Des expériencesd'infection des cellules avec des souches sauvages et mutées pour la CDT (deH. hepaticus & H. pullorum) ont permis de valider les résultats obtenus et de les attribuer à laCdtB et notamment à son activité DNase. Nous avons aussi développé un nouveau modèle dexénogreffes de cellules épithéliales inductibles pour l’expression de la CdtB de H. hepaticus.Dans ce modèle, la CdtB, en plus de ses effets déjà connus, retarde la croissance tumorale,induit l’apoptose, la sénescence et la surexpression du marqueur nucléaire de prolifération,Ki-67, suggérant la survie cellulaire. L’ensemble de ces résultats fournit de nouveaux argumentsen faveur du potentiel oncogénique de la CDT. / The demonstration of the role of the Cytolethal Distending Toxin (CDT) of Helicobacter hepaticusin the development of hepatocarcinoma in mice, makes this toxin a relevant candidate in theactivation of precancerous processes. As in the case of the CagA toxin of Helicobacter pylori, theCdtB active subunit of CDT could be an oncoprotein. We studied the role of Helicobacter CdtB ininflammation and digestive carcinogenesis using a lentiviral strategy for constitutive or conditionalexpression of the CdtB subunit or its corresponding DNase mutant. We conducted a study of thetranscriptome and showed that CdtB induced an inflammatory response by overexpressingcytokines, chemokines, antimicrobial peptides and activating the NF-kB pathway in epithelialcells. The CdtB also regulated the expression and nuclear localization of the transcription factorand oncogene MafB. These results were confirmed for the CdtB of Helicobacter pullorum.Infection of cells with wild type strains and the corresponding CDT-mutant strains (of H. hepaticus& H. pullorum) were used to validate the results and to attribute the effects to the CdtB and, inparticular, to its DNase activity. We also developed a novel epithelial cell xenograft model toevaluate the inducible expression of H. hepaticus CdtB. In this model, the CdtB, in addition to itspreviously well-known effects, delayed tumor growth, induced apoptosis, senescence and theoverexpression of nuclear proliferation marker, Ki-67, suggesting cell survival. All of these resultsprovide new arguments in favor of the oncogenic potential of the CDT.

Cytolethal distending toxin B

Hélicobacters

Inflammation

MafB

Xénogreffe

Peptides antimicrobiens

Cytolethal distending toxin B

Helicobacters

Inflammation

MafB

Xenograft

Antimicrobial peptides

Immunogenicity of the Gonococcal Transferrin Binding Proteins

Price, Gregory A

01 January 2005

The gonococcal transferrin binding proteins (Tbps) are two surface-exposed outer membrane proteins, TbpA and TbpB, which together function to remove and internalized iron from human transferrin. Iron is an essential nutrient to the gonococcus, without which it cannot survive. The Tbps have been established as virulence factors, demonstrating their importance in establishing infection. Both TbpA and TbpB are well conserved among gonococcal isolates, and have been considered potential vaccine targets. Vaccine studies with the closely related species Neisseria meningitidis, have demonstrated these proteins to be protective in murine challenge studies. Though the meningococcal Tbps have demonstrated promise, no similar gonococcal vaccine experiments have been conducted prior to the current studies. Here we demonstrate purification of recombinant TbpA and TbpB. These recombinant proteins were utilized to evaluate the human immune response to these proteins during natural infections, and their immunogenicity in murine vaccine studies. Our results demonstrate a paucity of antibodies elicited to these proteins during natural infections in serum and mucosal secretions from infected individuals. From this study we hypothesized the induction of both serum and genital antibodies to these proteins could serve to protect an individual from infection. To begin testing this hypothesis, we immunized mice both intranasally (IN) and subcutaneously (s.c.) with full-length Tbps in conjunction with the B subunit of cholera toxin (Ctb) as an adjuvant. We also performed another vaccine study using domains from both proteins in genetic fusions with Ctb and E. coli heat labile toxin IIb (LtbIIb). Both studies demonstrated that these antigens were immunogenic, as Tbp-specific antibodies were elicited in the serum and vaginal washes of female Balb/C mice. Intranasal immunization however was the only route with which we were able to elicit vaginal Tbp-specific IgA, and IgG, whereas subcutaneous immunization only elicited vaginal IgG. Furthermore, we found the full-length Tbps and the Ctb/LtbIIb chimeras were able to elicit bactericidal antibodies, which were also effective in killing heterologous gonococcal strains. This body of work comprises the first published study using the gonococcal transferrin binding proteins as vaccine antigens, and highlights their potential as vaccine antigens in the development of an efficacious gonococcal vaccine.

mucosal vaccination

cholera toxin B

bactericidal antibody response

serum antibodies

vaginal antibodies

recombinant proteins

Medicine and Health Sciences

Evaluation of C. diff Quik Chek Complete® and comparison with GeneXpert to establish a new diagnostic algorithm

Thorsell, Mikaela

January 2018

Clostridium difficile is the most common antibiotic related diarrhéa disease in Sweden. New recommendations from the Swedish public health authority and European Society of Clinical Microbiology and Infectious Diseases (ESCMID) had led to that a more advanced diagnostic algorithm is of priority. Hence this study, whose purpose was to investigate whether the performance of the rapid test C. diff Quik Chek Complete® could enable the introduction of a new diagnostic algorithm for detection of toxin-forming C. difficile in laboratory medicine in Sundsvall, according to these new recommendations. In the study 119 patient stool-samples were analysed with both GeneXpert and C. diff Quik Chek Complete® and these two combined fulfils these new recommendations of detecting toxin A and B from toxigenic C. difficile together with the enzyme Glutamate Dehydrogenase (GDH) which is produced by all C. difficile stems. The results shows that C. diff Quik Chek Complete® is well matched with GeneXpert and that most of the samples would come to be answered immediately after analysis with C. diff Quik Chek Complete®. The laboratory will save both time and money to establish C. diff Quik Chek Complete® in their algorithm for diagnosing C. difficile infection.

Clostridium difficile infection

toxin A

toxin B

glutamat dehydrogenase

antibiotic resistance

Enzyme Immuo Assay

Natural Sciences

Naturvetenskap

Microbiology

Mikrobiologi

Expression of CTB-proinsulin in transgenic chloroplasts

Hickey, Ashley N.

01 January 2008

Diabetes mellitus is presently recognized as the sixth leading cause of death in the United States, affecting over 20 million people. Diabetes is a condition characterized by high blood glucose due to an insulin deficiency or resistance. Type I, which comprises 5-10% of all cases, results from the destruction of pancreatic beta cells in the islets of Langerhans. The current treatment for type I diabetes is insulin administration through injection or pump. Purification, production, and storage of this insulin proves to be quite costly. By producing biologically functional insulin with oral delivery capabilities through chloroplast genetic engineering, many of these costs could be cut back. In addition, the possibility of providing the C-peptide currently lacking in commercially available insulin becomes available. The Daniell lab inserted cholera toxin B-subunit (CTB) fused proinsulin, containing three furin cleavage sites, (CTB-pins Fx3) into the tobacco chloroplasts of Petit Havana via particle gun bombardment. The insertion of three furin cleavage sites along with fusion to CTB will enable the insulin to sustain function when orally administered. Transgenic plants from the second generation were then analyzed and tested for quantification of the CTB-pins Fx3 gene. Tobacco leaves of varying ages were compared to determine expression levels. The resulting data is pertinent for future production of both orally deliverable insulin and more cost effective injectable insulin.

Microbiology

Molecular Biology