Your search keyword '"Thomas J. Roodsant"' showing total 3 results

1. The streptococcal phase-variable Type I Restriction-Modification system SsuCC20p dictates the methylome ofStreptococcus suisand impacts virulence

Author

Thomas J. Roodsant, Boas van der Putten, Jaime Brizuela, Jordy P.M. Coolen, Tim J.H. Baltussen, Kim Schipper, Yvonne Pannekoek, Kees C.H. Van der Ark, and Constance Schultsz

Abstract

Phase-variable Type I Restriction Modification (RM) systems are epigenetic regulatory systems that have been identified in numerous human bacterial pathogens. We previously showed that an emerging zoonotic lineage ofStreptococcus suisacquired a phase-variable Type I RM system named SsuCC20p. The SsuCC20p locus was present in the genome of disease-associated isolates from multiple streptococcal species. This indicates that it is not restricted toS. suisand can be acquired through horizontal gene transfer. We demonstrate that SsuCC20p phase-variability relies on a recombinase present within the locus.In vitro, only SsuCC20p is responsible for the genome methylation profiles that were detected in the representative zoonoticS. suisisolate 861160. In addition, we show that, contrary to previous observations,hsdSgenes located downstream of thehsdMgene and the recombinase gene, can contribute to the SsuCC20p genome methylation profile. SsuCC20p locked mutants expressing a singlehsdSeach showed unique genome methylation profiles. The differential genome methylation of the distinct locked mutants caused phase dependent differences in global gene expression in a growth condition dependent manner. We observed significant differences in virulence betweenhsdSlocked mutants in a zebrafish larvae infection model. These data indicate that the streptococcal phase-variable Type I RM system SsuCC20p can impact bacterial virulence via epigenetic regulation of gene expression and potentially contributes to the zoonotic potential ofS. suis.ImportancePhase-variation contributes to the virulence of bacterial pathogens as it allows a single strain to produce phenotypic diverse subpopulations. Phase-variable Restriction Modification (RM) systems are systems that allow for such phase-variation via epigenetic regulation of gene expression levels. The phase-variable RM system SsuCC20p was found in multiple streptococcal species and was acquired by an emerging zoonotic lineage ofStreptococcus suis. We show that the phase-variability of SsuCC20p is dependent on a recombinase encoded within the SsuCC20p locus. We characterized the genome methylation profiles of the different phases of SsuCC20p and showed that the differential genome methylation within the phases causes differences in gene expression levels and virulence. Altogether, we show that the acquisition of a phase-variable RM system impacts virulence and can potentially contribute to the zoonotic potential ofS. suis. Bacterial pathogens can increase their virulence through acquisition of mobile elements containing epigenetic regulatory systems such as RM systems.

Published

2023

2. Correction for van der Putten et al., 'Five Complete Genome Sequences Spanning the Dutch Streptococcus suis Serotype 2 and Serotype 9 Populations'

Author

Boas C. L. van der Putten, Thomas J. Roodsant, Martin A. Haagmans, Constance Schultsz, and Kees C. H. van der Ark

Subjects

Immunology and Microbiology (miscellaneous), Genetics, Molecular Biology

Published

2022

3. Identification of

Author

Thomas J, Roodsant, Boas C L, Van Der Putten, Sara M, Tamminga, Constance, Schultsz, and Kees C H, Van Der Ark

Subjects

Swine Diseases, Streptococcus suis, Virulence, Swine, Virulence Factors, Reviews, Genomics, Review Article, virulence factor, zoonoses, meta-analysis, systematic review, Streptococcal Infections, Animals

Abstract

Streptococcus suis is an emerging zoonotic pathogen. Over 100 putative virulence factors have been described, but it is unclear to what extent these virulence factors could contribute to zoonotic potential of S. suis. We identified all S. suis virulence factors studied in experimental models of human origin in a systematic review and assessed their contribution to zoonotic potential in a subsequent genomic meta-analysis. PubMed and Scopus were searched for English-language articles that studied S. suis virulence published until 31 March 2021. Articles that analyzed a virulence factor by knockout mutation, purified protein, and/or recombinant protein in a model of human origin, were included. Data on virulence factor, strain characteristics, used human models and experimental outcomes were extracted. All publicly available S. suis genomes with available metadata on host, disease status and country of origin, were included in a genomic meta-analysis. We calculated the ratio of the prevalence of each virulence factor in human and pig isolates. We included 130 articles and 1703 S. suis genomes in the analysis. We identified 53 putative virulence factors that were encoded by genes which are part of the S. suis core genome and 26 factors that were at least twice as prevalent in human isolates as in pig isolates. Hhly3 and NisK/R were particularly enriched in human isolates, after stratification by genetic lineage and country of isolation. This systematic review and genomic meta-analysis have identified virulence factors that are likely to contribute to the zoonotic potential of S. suis.

Published

2021