Étude fonctionnelle de l’opéron fimbriaire stg de Salmonella enterica sérovar Typhi

Forest, Chantal

11 1900

La bactérie Salmonella enterica sérovar Typhi (S. Typhi) provoque la fièvre typhoïde chez les humains et constitue un problème de santé publique important. La majorité de nos connaissances sur la pathogenèse de cette bactérie provient du modèle de fièvre entérique chez la souris causée par le sérovar Typhimurium. Peu d’études se sont penchées sur les facteurs de virulence uniques au sérovar Typhi, ni sur la possibilité que les pseudogènes retrouvés dans son génome puissent être fonctionnels. Le fimbria stg, unique au sérovar Typhi, renferme un codon d’arrêt TAA prématuré dans le gène stgC qui code pour le placier responsable de l’assemblage des sous-unités fimbriaires à la surface de la bactérie. Ainsi, le fimbria stg a été classifié dans la liste des pseudogènes non-fonctionnels. Les objectifs de cette étude étaient d’évaluer l’implication du fimbria stg lors de l’interaction avec les cellules humaines, puis de vérifier l’importance du pseudogène stgC lors de la biogenèse fimbriaire. Dans une première partie, la transcription de stg a été évaluée à l’aide d’une fusion lacZ. Malgré des niveaux d’expression observés généralement faibles en milieu riche, la croissance en milieu minimal a favorisé la transcription de l’opéron. La délétion complète de l’opéron fimbriaire stgABCD du génome de S. Typhi a été réalisée par échange allélique, puis a été complémentée sur un plasmide. Il a été démontré que la présence de stg chez S. Typhi, S. Typhimurium et E. coli contribue à une adhérence accrue sur les cellules épithéliales humaines. De plus, ce fimbria semble agir comme une structure anti-phagocytaire lors de l’interaction avec des macrophages humains. Ainsi, l’opéron stg semble fonctionnel, malgré son codon d’arrêt prématuré, puisque des phénotypes ont été observés. La seconde partie de cette étude consistait à vérifier le rôle joué par le pseudogène stgC dans la biogenèse du fimbria. Différentes variantes de l’opéron ont été générées, clonées dans un vecteur inductible à l’arabinose, puis transformées dans la souche afimbriaire d’E. coli ORN172. La translocation de la sous-unité fimbriaire StgD à la surface de la bactérie a été évaluée chez ces différents mutants par immunobuvardage de type Western. Cette expérience a permis de démontrer que le pseudogène stgC est essentiel pour l’exportation de la sous-unité StgD à la surface. L’ajout d’une étiquette de 6-histidines en C-terminal de StgC a permis de confirmer la traduction complète du gène, malgré le codon d’arrêt TAA prématuré. Le séquençage peptidique a révélé l’insertion d’une tyrosine à ce codon. Une fusion traductionnelle avec la protéine verte fluorescente a révélé qu’environ 0.8% de l’ARNm peut être traduit et permet la production complète du placier. Ce projet a permis la caractérisation d’un facteur de virulence unique à S. Typhi et constitue une étape de plus vers la compréhension de ses mécanismes de pathogenèse. Il s’agit de la première démonstration chez les bactéries de la fonctionnalité d’un gène interrompu prématurément par un codon d’arrêt TAA. / Salmonella enterica serovar Typhi (S. Typhi) causes typhoid fever in humans and is considered as an important health problem. Most of our knowledge on the pathogenesis of this bacterium comes from an enteric fever model in mice caused by serovar Typhimurium. Few studies have examined the virulence factors unique to serovar Typhi or the possibility that pseudogenes harbored in its genome may be functional. stg fimbriae are found only within the serovar Typhi genome and contain a premature TAA stop codon in the stgC gene encoding the usher responsible for the assembly of fimbrial subunits at the bacterial surface. Thus, the stg fimbria has been classified among the list of non-functional pseudogenes. The objectives of this study were to assess the involvement of stg fimbriae during interaction with human cells, and then to evaluate the importance of the stgC pseudogene in fimbrial biogenesis. First, stg transcription was evaluated using a lacZ fusion. Despite low expression levels generally observed in rich medium, growth in minimal medium promoted transcription of the operon. Complete deletion of the stgABCD fimbrial operon from S. Typhi was performed by allelic exchange and was complemented on a plasmid. It has been shown that the presence of stg in S. Typhi, S. Typhimurium and E. coli contributes to increased adherence to human epithelial cells. In addition, the fimbriae seem to act as an anti-phagocytic structure during the interaction with macrophages. Thus, the stg operon appears to be functional despite its premature codon, as phenotypes were observed. The second part of this study involved testing the role of the stgC pseudogene in fimbrial biogenesis. Different variants of the operon were generated, cloned into an arabinose inducible vector, and then transformed into afimbriated E. coli strain ORN172. Translocation of the StgD subunit to the cell surface of the different mutants was evaluated using Western blot. This experiment demonstrated that stgC is essential for export of the StgD subunit to the cell surface. The addition of a 6-histidine tag at the C-terminal end of StgC confirmed the complete translation of the gene, despite the premature TAA stop codon. Peptide sequencing revealed the insertion of a tyrosine at this codon. A translational fusion with the green fluorescent protein demonstrated that approximately 0.8% of the mRNA can be translated to allow full production of the usher. This project allowed characterization of a virulence factor unique to S. Typhi and is a step closer towards better understanding of its pathogenesis mechanisms. This is the first demonstration in bacteria of the functionality of a gene which is interrupted by a premature TAA stop codon.

Salmonella enterica sérovar Typhi

Fimbriae

Stg

Pathogenèse

Pseudogène

Salmonella enterica serovar Typhi

Pathogenesis

Pseudogene

Reengineering a human-like uricase for the treatment of gout

Kratzer, James Timothy

27 August 2014

There is an unmet medical need in the treatment of gout. This type of inflammatory arthritis can be efficiently alleviated by the enzyme uricase. This enzyme breaks down uric acid, the causative agent of gout, so it can be flushed from the body. In humans and the other great apes, uricase is a pseudogene and as such is inactive. Research on therapeutic uricases has focused on using enzymes from naturally occurring sources; however, these foreign proteins can be very antigenic and present a potentially life-threatening safety risk to patients. We address the challenges of developing a safer uricase therapeutic by exploiting evidence that, while inactive, the human pseudogene is expressed in the human body and may be recognized as self by the immune system. To develop a ﾓhuman-likeﾔ? uricase we apply the hybrid computational and experimental approach of Ancestral Sequence Reconstruction to search functional sequence space of uricase proteins to engineer an enzyme with high sequence identity to the human pseudogene, and possessing therapeutic levels of activity for the breakdown of uric acid. This dissertation describes the development and characterization of several uricase leads. The most active ancestral uricase possesses both enhanced in vitro and in vivo stability (in healthy rats) when assayed head-to-head Pegloticase, the only FDA approved uricase for the treatment of gout.

Gout

Uricase

Ancestral sequence reconstruction

Protein engineering

Evolutionary synthetic biology

Pseudogene

Enzyme replacement

Therapy

Enzyme assays

Protein purification

Pharmacokinetics

Protein solubility

Evolution

Vyšetření rekombinací mezi genem a pseudogenem pro β-glukocerebrosidasu vedoucích ke vzniku patogenních alel / Detection of β-glucocerebrosidase gene/pseudogene recombination events leading to pathogenic alleles

Peková, Barbora

January 2017

This diploma thesis provides an overview of gene conversion, its role in the pathogenesis of human diseases and the use of methods based on next-generation sequencing (NGS) for detection rare variants of DNA sequence. Labeling of target DNA molecules by random nucleotides in primer and NGS were used for detection point mutations arising de novo in the β-glucocerebrosidase gene by gene conversion between it and its pseudogene in meiotic and mitotic cells of control subjects. Primers specific for the active gene were used to selectively amplify the ninth and tenth exon of the gene where "recombinant" variants occur most frequently. Sequences generated from 20 genomic DNA samples on Illumina MiSeq platform were quality filtered, sorted by unique labels and consensus sequences were created from alignments of sequences carrying the same DNA tag. The number of potential point mutations in the samples ranged between 12 and 48. The mutations were manually re-evaluated from the alignments. The number of alignments with unique labeling was in the range of 7-15 thousand per sample. Only three samples carried possible recombinant mutations, suggesting a lower frequency of conversion in the region than reported by other techniques. Analysis of unique sequences in primer indicated possible ways to improve the...