Mutualist-Provisioned Resources Impact Vector Competency

Many symbionts supplement their host's diet with essential nutrients. However, whether these nutrients also enhance parasitism is unknown. In this study, we investigated whether folate (vitamin B ) production by the tsetse fly ( spp.) essential mutualist, , aids auxotrophic African trypanosomes...

Full description

Saved in:
Bibliographic Details
Published in:mBio 2019-06, Vol.10 (3)
Main Authors: Rio, Rita V M, Jozwick, Anna K S, Savage, Amy F, Sabet, Afsoon, Vigneron, Aurelien, Wu, Yineng, Aksoy, Serap, Weiss, Brian L
Format: Article
Language:English
Subjects:
Animals
Biosynthetic Pathways
Female
folate
Folic Acid - biosynthesis
Gastrointestinal Tract - parasitology
Host-Microbe Biology
Host-Parasite Interactions
Male
Symbiosis
Trypanosoma - physiology
trypanosome
tsetse
Tsetse Flies - microbiology
Tsetse Flies - parasitology
vector competence
Wigglesworthia
Wigglesworthia - metabolism
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Many symbionts supplement their host's diet with essential nutrients. However, whether these nutrients also enhance parasitism is unknown. In this study, we investigated whether folate (vitamin B ) production by the tsetse fly ( spp.) essential mutualist, , aids auxotrophic African trypanosomes in completing their life cycle within this obligate vector. We show that the expression of folate biosynthesis genes changes with the progression of trypanosome infection within tsetse. The disruption of folate production caused a reduction in the percentage of flies that housed midgut (MG) trypanosome infections. However, decreased folate did not prevent MG trypanosomes from migrating to and establishing an infection in the fly's salivary glands, thus suggesting that nutrient requirements vary throughout the trypanosome life cycle. We further substantiated that trypanosomes rely on symbiont-generated folate by feeding this vitamin to , which exhibits low trypanosome vector competency and houses incapable of producing folate. Folate-supplemented flies were significantly more susceptible to trypanosome infection, further demonstrating that this vitamin facilitates parasite infection establishment. Our cumulative results provide evidence that provides a key metabolite (folate) that is "hijacked" by trypanosomes to enhance their infectivity, thus indirectly impacting tsetse species vector competency. Parasite dependence on symbiont-derived micronutrients, which likely also occurs in other arthropod vectors, represents a relationship that may be exploited to reduce disease transmission. Parasites elicit several physiological changes in their host to enhance transmission. Little is known about the functional association between parasitism and microbiota-provisioned resources typically dedicated to animal hosts and how these goods may be rerouted to optimize parasite development. This study is the first to identify a specific symbiont-generated metabolite that impacts insect vector competence by facilitating parasite establishment and, thus, eventual transmission. Specifically, we demonstrate that the tsetse fly obligate mutualist provisions folate (vitamin B ) that pathogenic African trypanosomes exploit in an effort to successfully establish an infection in the vector's MG. This process is essential for the parasite to complete its life cycle and be transmitted to a new vertebrate host. Disrupting metabolic contributions provided by the microbiota of arthropod disease v
ISSN:2161-2129
2150-7511
DOI:10.1128/mbio.00018-19