Trypanosome infection establishment in the tsetse fly gut is influenced by microbiome-regulated host immune barriers

Tsetse flies (Glossina spp.) vector pathogenic African trypanosomes, which cause sleeping sickness in humans and nagana in domesticated animals. Additionally, tsetse harbors 3 maternally transmitted endosymbiotic bacteria that modulate their host's physiology. Tsetse is highly resistant to infe...

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Published in:	PLoS pathogens Vol. 9; no. 4; p. e1003318
Main Authors:	Weiss, Brian L, Wang, Jingwen, Maltz, Michele A, Wu, Yineng, Aksoy, Serap
Format:	Journal Article
Language:	English
Published:	United States Public Library of Science 01-04-2013 Public Library of Science (PLoS)
Subjects:	Animals Bacteria Biology Carrier Proteins - biosynthesis Disease Disease transmission Drosophila Female Gastrointestinal Tract - immunology Gastrointestinal Tract - parasitology Gene expression Genotype & phenotype Health aspects Immune response Infections Insect Proteins - biosynthesis Microbiota Mosquitoes NADPH Oxidases - biosynthesis Nitric oxide Nitric Oxide Synthase Type II - biosynthesis Parasites Physiological aspects Symbiosis Trypanosoma Trypanosoma brucei rhodesiense - immunology Trypanosoma brucei rhodesiense - pathogenicity Trypanosomiasis, African - transmission Tsetse Flies - growth & development Tsetse Flies - immunology Tsetse Flies - microbiology Tsetse Flies - parasitology United States
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Summary:	Tsetse flies (Glossina spp.) vector pathogenic African trypanosomes, which cause sleeping sickness in humans and nagana in domesticated animals. Additionally, tsetse harbors 3 maternally transmitted endosymbiotic bacteria that modulate their host's physiology. Tsetse is highly resistant to infection with trypanosomes, and this phenotype depends on multiple physiological factors at the time of challenge. These factors include host age, density of maternally-derived trypanolytic effector molecules present in the gut, and symbiont status during development. In this study, we investigated the molecular mechanisms that result in tsetse's resistance to trypanosomes. We found that following parasite challenge, young susceptible tsetse present a highly attenuated immune response. In contrast, mature refractory flies express higher levels of genes associated with humoral (attacin and pgrp-lb) and epithelial (inducible nitric oxide synthase and dual oxidase) immunity. Additionally, we discovered that tsetse must harbor its endogenous microbiome during intrauterine larval development in order to present a parasite refractory phenotype during adulthood. Interestingly, mature aposymbiotic flies (Gmm(Apo)) present a strong immune response earlier in the infection process than do WT flies that harbor symbiotic bacteria throughout their entire lifecycle. However, this early response fails to confer significant resistance to trypanosomes. Gmm(Apo) adults present a structurally compromised peritrophic matrix (PM), which lines the fly midgut and serves as a physical barrier that separates luminal contents from immune responsive epithelial cells. We propose that the early immune response we observe in Gmm(Apo) flies following parasite challenge results from the premature exposure of gut epithelia to parasite-derived immunogens in the absence of a robust PM. Thus, tsetse's PM appears to regulate the timing of host immune induction following parasite challenge. Our results document a novel finding, which is the existence of a positive correlation between tsetse's larval microbiome and the integrity of the emerging adult PM gut immune barrier.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Conceived and designed the experiments: BLW JW MAM SA. Performed the experiments: BLW JW MAM YW SA. Analyzed the data: BLW JW MAM SA. Contributed reagents/materials/analysis tools: BLW SA. Wrote the paper: BLW SA. The authors have declared that no competing interests exist.
ISSN:	1553-7374 1553-7366 1553-7374
DOI:	10.1371/journal.ppat.1003318