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An essential complementary role of NF-kappaB pathway to microbicidal oxidants in Drosophila gut immunity.


ABSTRACT: In the Drosophila gut, reactive oxygen species (ROS)-dependent immunity is critical to host survival. This is in contrast to the NF-kappaB pathway whose physiological function in the microbe-laden epithelia has yet to be convincingly demonstrated despite playing a critical role during systemic infections. We used a novel in vivo approach to reveal the physiological role of gut NF-kappaB/antimicrobial peptide (AMP) system, which has been 'masked' in the presence of the dominant intestinal ROS-dependent immunity. When fed with ROS-resistant microbes, NF-kappaB pathway mutant flies, but not wild-type flies, become highly susceptible to gut infection. This high lethality can be significantly reduced by either re-introducing Relish expression to Relish mutants or by constitutively expressing a single AMP to the NF-kappaB pathway mutants in the intestine. These results imply that the local 'NF-kappaB/AMP' system acts as an essential 'fail-safe' system, complementary to the ROS-dependent gut immunity, during gut infection with ROS-resistant pathogens. This system provides the Drosophila gut immunity the versatility necessary to manage sporadic invasion of virulent pathogens that somehow counteract or evade the ROS-dependent immunity.

SUBMITTER: Ryu JH 

PROVIDER: S-EPMC1538556 | biostudies-literature | 2006 Aug

REPOSITORIES: biostudies-literature

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An essential complementary role of NF-kappaB pathway to microbicidal oxidants in Drosophila gut immunity.

Ryu Ji-Hwan JH   Ha Eun-Mi EM   Oh Chun-Taek CT   Seol Jae-Hong JH   Brey Paul T PT   Jin Ingnyol I   Lee Dong Gun DG   Kim Jaesang J   Lee Daekee D   Lee Won-Jae WJ  

The EMBO journal 20060720 15


In the Drosophila gut, reactive oxygen species (ROS)-dependent immunity is critical to host survival. This is in contrast to the NF-kappaB pathway whose physiological function in the microbe-laden epithelia has yet to be convincingly demonstrated despite playing a critical role during systemic infections. We used a novel in vivo approach to reveal the physiological role of gut NF-kappaB/antimicrobial peptide (AMP) system, which has been 'masked' in the presence of the dominant intestinal ROS-dep  ...[more]

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