Mao Nitta scite author profile

Mao Nitta

3Publications

20Citation Statements Received

199Citation Statements Given

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190

Affiliations

Advanced Neural Dynamics (United States), Kanazawa University

Publications

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Role for σ38 in Prolonged Survival of Escherichia coli in Drosophila melanogaster

Shiratsuchi

Shimamoto

Nitta

et al. 2014

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Bacteria adapt themselves to host environments by altering the pattern of gene expression. The promoter-recognizing subunit σ of bacterial RNA polymerase plays a major role in the selection of genes to be transcribed. Among seven σ factors of Escherichia coli, σ38 is responsible for the transcription of genes in the stationary phase and under stressful conditions. We found a transient increase of σ38 when E. coli was injected into the hemocoel of Drosophila melanogaster. The loss of σ38 made E. coli rapidly eliminated in flies, and flies infected with σ38-lacking E. coli stayed alive longer than those infected with the parental strain. This was also observed in fly lines defective in humoral immune responses, but not in flies in which phagocytosis was impaired. The lack of σ38 did not influence the susceptibility of E. coli to phagocytosis, but made them vulnerable to killing after engulfment. The changes caused by the loss of σ38 were recovered by the forced expression of σ38-encoding rpoS as well as σ38-regulated katE and katG coding for enzymes that detoxify reactive oxygen species. These results collectively suggested that σ38 contributes to the prolonged survival of E. coli in Drosophila by inducing the production of enzymes that protect bacteria from killing in phagocytes. Considering the similarity in the mechanism of innate immunity against invading bacteria between fruit flies and humans, the products of these genes could be new targets for the development of more effective antibacterial remedies.

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Involvement of EnvZ–OmpR two-component system in virulence control of Escherichia coli in Drosophila melanogaster

Pukklay¹,

Nakanishi²,

Nitta³

et al. 2013

Biochemical and Biophysical Research Communications

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Inhibition of Phagocytic Killing of Escherichia coli in Drosophila Hemocytes by RNA Chaperone Hfq

Shiratsuchi

Nitta

Kuroda

et al. 2016

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An RNA chaperone of Escherichia coli, called host factor required for phage Qβ RNA replication (Hfq), forms a complex with small noncoding RNAs to facilitate their binding to target mRNA for the alteration of translation efficiency and stability. Although the role of Hfq in the virulence and drug resistance of bacteria has been suggested, how this RNA chaperone controls the infectious state remains unknown. In the present study, we addressed this issue using Drosophila melanogaster as a host for bacterial infection. In an assay for abdominal infection using adult flies, an E. coli strain with mutation in hfq was eliminated earlier, whereas flies survived longer compared with infection with a parental strain. The same was true with flies deficient in humoral responses, but the mutant phenotypes were not observed when a fly line with impaired hemocyte phagocytosis was infected. The results from an assay for phagocytosis in vitro revealed that Hfq inhibits the killing of E. coli by Drosophila phagocytes after engulfment. Furthermore, Hfq seemed to exert this action partly through enhancing the expression of σ38, a stress-responsive σ factor that was previously shown to be involved in the inhibition of phagocytic killing of E. coli, by a posttranscriptional mechanism. Our study indicates that the RNA chaperone Hfq contributes to the persistent infection of E. coli by maintaining the expression of bacterial genes, including one coding for σ38, that help bacteria evade host immunity.

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Mao Nitta

Role for σ38 in Prolonged Survival of Escherichia coli in Drosophila melanogaster

Involvement of EnvZ–OmpR two-component system in virulence control of Escherichia coli in Drosophila melanogaster

Inhibition of Phagocytic Killing of Escherichia coli in Drosophila Hemocytes by RNA Chaperone Hfq

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