DnaJ of Streptococcus suis Type 2 Contributes to Cell Adhesion and Thermotolerance

Zhang, Xiaoyan; Jiang, Xiaowu; Yang, Ling; Fang, Lihua; Shen, Hongxia; Lu, Xin-Jiang; Fang, Weihuan

doi:10.4014/jmb.1408.08085

Cited by 14 publications

(9 citation statements)

References 35 publications

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“…Certainly, several mutants that participated in stress responses (grpE, dnaK, tig) were attenuated for growth at diverse sites of infection (Table 1). The gene encoding the chaperone DnaJ of S. suis was shown to contribute to thermotolerance [56], whereas in S. pneumoniae, DnaJ was shown to play an important role in inflammatory responses [57]. Trigger factor, another chaperone with peptidyl-prolyl cis-trans isomerization that assists proteins in its proper folding and maturation [58], was shown to contribute to stress tolerance and alter the expression of genes involved in virulence in S. suis [59] and other pathogenic streptococci [60].…”

Section: Cell Envelope and Stress Responsementioning

confidence: 99%

“…Trigger factor, another chaperone with peptidyl-prolyl cis-trans isomerization that assists proteins in its proper folding and maturation [58], was shown to contribute to stress tolerance and alter the expression of genes involved in virulence in S. suis [59] and other pathogenic streptococci [60]. Besides assisting in stress responses, a role in adhesion was attributed to these proteins [56,60], although adhesion mediated by these cytoplasmic chaperones remains controversial. Even when they lack a signal peptide required for secretion and a cell wall anchor motif, they were partially found at the cell surface [60].…”

Section: Cell Envelope and Stress Responsementioning

confidence: 99%

“…stabilization likely imported by the cited transporters [75]. Other chaperones such as DnaJ, which possess a demonstrated function in thermotolerance of S. suis serotype 2 [56], needs Zinc for the recognition of substrates [76]. In contrast to the cited mutants, mutant 10ΔglA lacked a depressed logarithmic phase as observed for the wild type (Figure 4(b)).…”

Section: Role Of Selected Essential Genes Under In Vivo Mimicking Conmentioning

confidence: 99%

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Identification of conditionally essential genes for Streptococcus suis infection in pigs

et al. 2020

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Streptococcus suis is a Gram-positive bacterium and zoonotic pathogen that causes meningitis and sepsis in pigs and humans. The aim of this study was to identify genes required for S. suis infection. We created Tn-Seq libraries in a virulent S. suis strain 10, which was used to inoculate pigs in an intrathecal experimental infection. Comparative analysis of the relative abundance of mutants recovered from different sites of infection (blood, cerebrospinal fluid, and meninges of the brain) identified 361 conditionally essential genes, i.e. required for infection, which is about 18% of the genome. The conditionally essential genes were primarily involved in metabolic and transport processes, regulation, ribosomal structure and biogenesis, transcription, and cell wall membrane and envelope biogenesis, stress defenses, and immune evasion. Directed mutants were created in a set of 10 genes of different genetic ontologies and their role was determined in ex vivo models. Mutants showed different levels of sensitivity to survival in whole blood, serum, cerebrospinal fluid, thermic shock, and stress conditions, as compared to the wild type. Additionally, the role of three selected mutants was validated in co-infection experiments in which pigs were infected with both wild type and isogenic mutant strains. The genetic determinants of infection identified in this work contribute to novel insights in S. suis pathogenesis and could serve as targets for novel vaccines or antimicrobial drugs.

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Section: Cell Envelope and Stress Responsementioning

confidence: 99%

Section: Cell Envelope and Stress Responsementioning

confidence: 99%

Section: Role Of Selected Essential Genes Under In Vivo Mimicking Conmentioning

confidence: 99%

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Identification of conditionally essential genes for Streptococcus suis infection in pigs

et al. 2020

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“…Experiments with the pathogens Pseudomonas aeruginosa , Vibrio alginolyticus; Vibrio vulnificus, and Legionella pneumophila (Huang, Hu et al., ; Kim & Rhee, ; Luo et al., ; Olga, Jens, & Michael, ; Shao et al., ) demonstrated the important role of flagella or lipopoly saccharides in establishing the initial interaction with mucosal surfaces or cells and that this defect can reduce the ability of adhesion. In addition, the genetic basis of colonization has been studied in V. vulnificus , L. pneumophila, and Streptococcus suis (Chang et al., ; Kim & Rhee, ; Zhang et al., ) and in the genes that impact bacterial adhesion that can also contribute to bacterial pathogenesis. In the pathogenic bacteria V. vulnificus , FlgC was shown to be involved in adhesion to HeLa cells, and the flgC mutation could decrease the level of adhesion, cytotoxicity, and lethality in mice (Kim & Rhee, ).…”

Section: Introductionmentioning

confidence: 99%

“…Intracellular bacteria L. pneumophilalaia was shown to be involved in adhesion to the human lung alveolar epithelial cell line A549, and the laiA gene mutation could cause reduced mortality in A/J mice (Chang et al., ). The dnaJ of S. suis Type 2 was important for adhesion to host cells, and the dnaJ PKO strain can result in reduced adhesion to cultured cell monolayers (Zhang et al., ). These pathogenic genes were all considered to be the key factors for bacterial adhesion and pathogenicity.…”

Section: Introductionmentioning

confidence: 99%

Ribose operon repressor (RbsR) contributes to the adhesion of Aeromonas hydrophila to Anguilla japonica mucus

Lin

Chen

et al. 2017

MicrobiologyOpen

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The characterization of adhesion between pathogenic bacteria and the host is critical. Pathogenic Aeromonas hydrophila was shown to adhere in vitro to the mucus of Anguilla japonica. To further investigate the adhesion mechanisms of A. hydrophila, a mini‐Tn10 transposon mutagenesis system was used to generate an insertion mutant library by cell conjugation. Seven mutants that were impaired in adhesion to mucus were selected out of 332 individual colonies, and mutant M196 was the most severely impaired strain. National Center for Biotechnology Information (NCBI) blast analysis showed that mutant M196 was inserted by mini‐Tn10 with an ORF of approximately 1,005 bp (GenBank accession numbers KP280172). This ORF is predicted to encode a protein consist of 334 amino acid, which displays the highest identity (98%) with the RbsR of A. hydrophila ATCC 7966. Random inactivation of rbsR gene affected the pleiotropic phenotypes of A. hydrophila. The adhesion ability and the survival level of the rbsR gene mutant (M196) were attenuated compared with the wild‐type and rbsR complementary type. The findings of this study indicated that RbsR plays roles in the bacterial adhesion and intracellular survival of A. hydrophila.

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Initial steps of the pathogenesis of the infection caused byStreptococcus suis: fighting against nonspecific defenses

et al. 2016

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Edited by Wilhelm JustInteractions between a bacterial pathogen and its potentially susceptible host are initiated with the colonization step. During respiratory/oral infection, the pathogens must compete with the normal microflora, resist defense mechanisms of the local mucosal immunity, and finally reach, adhere, and breach the mucosal epithelial cell barrier in order to induce invasive disease. This is the case during infection by the swine and zoonotic pathogen Streptococcus suis, which is able to counteract mucosal barriers to induce severe meningitis and sepsis in swine and in humans. The initial steps of the pathogenesis of S. suis infection has been a neglected area of research, overshadowed by studies on the systemic and central nervous phases of the disease. In this Review article, we provide for the first time, an exclusive focus on S. suis colonization and the potential mechanisms involved in S. suis establishment at the mucosa, as well as the mechanisms regulating mucosal barrier breakdown. The role of mucosal immunity is also addressed. Finally, we demystify the extensive list of putative adhesins and virulence factors reported to be involved in the initial steps of pathogenesis by S. suis.

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DnaJ of Streptococcus suis Type 2 Contributes to Cell Adhesion and Thermotolerance

Cited by 14 publications

References 35 publications

Identification of conditionally essential genes for Streptococcus suis infection in pigs

Identification of conditionally essential genes for Streptococcus suis infection in pigs

Ribose operon repressor (RbsR) contributes to the adhesion of Aeromonas hydrophila to Anguilla japonica mucus

Initial steps of the pathogenesis of the infection caused byStreptococcus suis: fighting against nonspecific defenses

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