Natural avirulentShigella boydiistrain in the Brazilian Amazon lacks major virulence genes and present Type II, Type III and Type VI Secretion Systems
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Abstract
ABSTRACT Background Among Shigella species, Shigella boydii has always displayed a smaller role to the overall Shigella burden, frequently placed at third in epidemiological studies and described as restricted to Southeast Asia. Here we characterize an S. boydii isolated from an epidemiological study enrolling 1,339 Brazilian children from the Amazon region, in which Shigella species solely was the fourth cause of bacterial diarrhea. S. boydii strain 183 was isolated from rotavirus co-infected children with acute diarrhea. Here we aimed to characterize this strain regarding virulence and, immune response in a pulmonary model. Methods An in vitro HEp-2 epithelial cell invasion assay was used to compare the invasive phenotype of S. boydii strain 183 with clinical and highly virulent S. flexneri strain, both isolated from Brazilian children. A murine pulmonary model was performed to assess lung damage by histopathological analysis. mRNA expression of immune response key genes was retrieved by multiplex real-time PCR and correlations were obtained by network analysis. Broad genome analysis was performed to confirm S. boydii identity and define its virulence profile. Results S. boydii strain 183 showed fewer invasion rates in vitro and tissue damage in vivo as compared to virulent S. flexneri 201. When compared to a survival challenge in mice, S. boydii had 100% survival against 10% of virulent S. flexneri . Overall, mRNA immune gene expression suggests a protective response against S. boydii strains 183, in contrast to the inflammatory response induced by the virulent S. flexneri strain 201. Network analysis with S. boydii strain 183 displayed IFN-γ protagonism, contrasting with the correlations centralized on TNF-α by the virulent S. flexneri strain 201. The genome showed a lack of effector proteins and enterotoxins in S. boydii strain 183, and sequencing analysis of Ipa invasins revealed mutations at functional sites. This avirulent S. boydii strain 183 presents the Type II Secretion System, T6SS, in addition to T3SS. Conclusions In addition to causing no disease, S. boydii strain 183 lacks effector proteins and enterotoxins. The presence of T6SS additional secretion system could provide an advantage to establish this strain among commensal bacteria. AUTHOR SUMMARY The Shigella genus is a human pathogen responsible to shigellosis and remains one of the significant causes of morbidity and mortality in children under five years old. This genus has four species, Shigella flexneri , Shigella sonnei , Shigella boydii , and Shigella dysenteriae . S. flexneri and S. sonnei are the most common in the worldwide infections; S. dysenteriae is rarely found, and S. boydii is responsible for 1% of the infections and is known to be restricted to Southeast Asia. Once S. boydii have a relatively small role in global Shigella disease, there are few studies regarding its virulence and mechanisms. Here we characterize an S. boydii isolated from Brazilian children from the Amazon region, and aimed to describe this strain regarding virulence. It is known that Shigella species use the Type 3 Secretion System (T3SS) to invade and colonize the human intestine. We found in S. boydii the presence of Type 2 Secretion System (T2SS), Type 6 Secretion System (T6SS), in addition to the T3SS. The T6SS have been described in S. sonnei only, granting a competitive advantage against S. flexneri mixed cultures. The presence of T6SS additional secretion system could provide a benefit to establish this strain among commensal bacteria.
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License: CC-BY-4.0