NO Is a Macrophage Autonomous Modifier of the Cytokine Response to Streptococcal Single-Stranded RNA | Zendy

Sachin D. Deshmukh | Zendy; Sabrina Müller | Zendy; Katrin Hese | Zendy; Katharina S. Rauch | Zendy; Julia Wennekamp | Zendy; Osamu Takeuchi | Zendy; Shizuo Akira | Zendy; Douglas T. Golenbock | Zendy; Philipp Henneke | Zendy

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NO Is a Macrophage Autonomous Modifier of the Cytokine Response to Streptococcal Single-Stranded RNA

Author(s) -

Sachin D. Deshmukh,

Sabrina Müller,

Katrin Hese,

Katharina S. Rauch,

Julia Wennekamp,

Osamu Takeuchi,

Shizuo Akira,

Douglas T. Golenbock,

Philipp Henneke

Publication year - 2011

Publication title -

the journal of immunology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.737

H-Index - 372

eISSN - 1550-6606

pISSN - 0022-1767

DOI - 10.4049/jimmunol.1101383

Subject(s) - cytokine , phagosome , phagocytosis , macrophage , sepsis , microbiology and biotechnology , biology , pathogenesis , nucleic acid , gene , rna , immunology , genetics , in vitro

Group B streptococci, a major cause of sepsis, induce inflammatory cytokines in strict dependence on bacterial ssRNA and the host molecules MyD88 and UNC-93B. In this study, we show that NO plays an important role in Group B streptococci-induced transcriptional activation of cytokine genes. Phagocytosis induced NO in a MyD88-dependent fashion. In turn, NO propagated the acidification of phagosomes and the processing of phagosomal bacterial nucleic acids and was required for potent transcriptional activation of cytokine genes by streptococci. This NO-dependent amplification loop has important mechanistic implications for the anti-streptococcal macrophage response and sepsis pathogenesis.

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