Microbial regulation of intestinal motility provides resistance against helminth infection

Moyat, Mati; Lebon, Luc; Perdijk, Olaf; Wickramasinghe, Lakshanie C.; Zaiss, Mario M.; Mosconi, Ilaria; Volpe, Beatrice; Guenat, Nadine; Shah, Kathleen; Coakley, Gillian; Bouchery, Tiffany; Harris, Nicola L.

doi:10.1038/s41385-022-00498-8

Cited by 19 publications

(26 citation statements)

References 66 publications

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“…Indirectly, helminth infection may alter the bacterial microbiome through an influence on immune homeostasis of the host, whether by altering inflammatory modulation, mucus production or antimicrobial peptide production (Ling et al, 2020; Reynolds et al, 2015). Alternatively, bacterial microbiome composition can alter parasite colonization success, replication and virulence through variation in the physical gut landscape (Leung et al, 2018; Moyat et al, 2022), suggesting that the establishment of strongylid communities may vary dependent on the bacterial microbiome. It is also possible, but unlikely, that observed covariations do not reflect interactions between strongylid nematodes and the bacterial microbiome but in fact echo specific bacterial and strongylid taxa showing harmonized responses to extraneous environmental variables (Reynolds et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

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Gastrointestinal symbiont diversity in wild gorilla: A comparison of bacterial and strongylid communities across multiple localities

et al. 2022

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Western lowland gorillas (Gorilla gorilla gorilla) are Critically Endangered and show continued population decline. Consequently, pressure is mounting to better understand their conservation threats and ecology. Gastrointestinal symbionts, such as bacterial and eukaryotic communities, are believed to play vital roles in the physiological landscape of the host. Gorillas host a broad spectrum of eucaryotes, so called parasites, with strongylid nematodes being particularly prevalent. While these communities are partially consistent, they are also shaped by various ecological factors, such as diet or habitat type. To investigate gastrointestinal symbionts of wild western lowland gorillas, we analysed 215 faecal samples from individuals in five distinct localities across the Congo Basin, using high‐throughput sequencing techniques. We describe the gut bacterial microbiome and genetic diversity of strongylid communities, including strain‐level identification of amplicon sequence variants (ASVs). We identified strongylid ASVs from eight genera and bacterial ASVs from 20 phyla. We compared these communities across localities, with reference to varying environmental factors among populations, finding differences in alpha diversity and community compositions of both gastrointestinal components. Moreover, we also investigated covariation between strongylid nematodes and the bacterial microbiome, finding correlations between strongylid taxa and Prevotellaceae and Rikenellaceae ASVs that were consistent across multiple localities. Our research highlights the complexity of the bacterial microbiome and strongylid communities in several gorilla populations and emphasizes potential interactions between these two symbiont communities. This study provides a framework for ongoing research into strongylid nematode diversity, and their interactions with the bacterial microbiome, among great apes.

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Section: Discussionmentioning

confidence: 99%

“…Alternatively, bacterial microbiome composition can alter parasite colonization success, replication and virulence through variation in the physical gut landscape (Leung et al, 2018;Moyat et al, 2022),…”

Section: Strongylid and Gut Bacterial Microbiome Covariationmentioning

confidence: 99%

Gastrointestinal symbiont diversity in wild gorilla: A comparison of bacterial and strongylid communities across multiple localities

et al. 2022

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“…A plethora of studies published over the last decade has pointed toward the occurrence of a complex network of interactions between GI helminths of humans and animals and the resident gut microbiota [ 38 – 44 ]; nevertheless, in spite of this evidence, the exact mechanisms underpinning such interactions have remained largely elusive [ 15 , 45 , 46 ]. In this study, we demonstrated that ESPs from T. circumcincta , a globally distributed GI nematode of small ruminants, exert antimicrobial activity in in vitro bacterial growth assays, and identified and characterised several proteins with putative antimicrobial activity that represent key targets of follow-up mechanistic studies of parasite-microbiota relationships.…”

Section: Discussionmentioning

confidence: 99%

Excretory-secretory products from the brown stomach worm, Teladorsagia circumcincta, exert antimicrobial activity in in vitro growth assays

et al. 2022

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Background Over the past decade, evidence has emerged of the ability of gastrointestinal (GI) helminth parasites to alter the composition of the host gut microbiome; however, the mechanism(s) underpinning such interactions remain unclear. In the current study, we (i) undertake proteomic analyses of the excretory-secretory products (ESPs), including secreted extracellular vesicles (EVs), of the ‘brown stomach worm’ Teladorsagia circumcincta, one of the major agents causing parasite gastroenteritis in temperate areas worldwide; (ii) conduct bioinformatic analyses to identify and characterise antimicrobial peptides (AMPs) with putative antimicrobial activity; and (iii) assess the bactericidal and/or bacteriostatic properties of T. circumcincta EVs, and whole and EV-depleted ESPs, using bacterial growth inhibition assays. Methods Size-exclusion chromatography was applied to the isolation of EVs from whole T. circumcincta ESPs, followed by EV characterisation via nanoparticle tracking analysis and transmission electron microscopy. Proteomic analysis of EVs and EV-depleted ESPs was conducted using liquid chromatography-tandem mass spectrometry, and prediction of putative AMPs was performed using available online tools. The antimicrobial activities of T. circumcincta EVs and of whole and EV-depleted ESPs against Escherichia coli were evaluated using bacterial growth inhibition assays. Results Several molecules with putative antimicrobial activity were identified in both EVs and EV-depleted ESPs from adult T. circumcincta. Whilst exposure of E. coli to whole ESPs resulted in a significant reduction of colony-forming units over 3 h, bacterial growth was not reduced following exposure to worm EVs or EV-depleted ESPs. Conclusions Our data points towards a bactericidal and/or bacteriostatic function of T. circumcincta ESPs, likely mediated by molecules with antimicrobial activity. Graphical Abstract

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“…Sometimes, it is mechanistically unclear how microbiome changes can influence susceptibility and pathogenesis of disease during helminth infection, although studies have shown that helminth infection can influence the microbiome composition and diversity in the host recently reviewed here (159). A recent study by Moyat et al, 2022 using germ-free, antibiotic-treated, and specific pathogen-free mice clearly demonstrated that the intestinal bacteria composition can have an impact on host resistance to intestinal helminth H. polygyrus (165). Depletion of a complex microbiota through long termtreatment with antibiotics or in germ free mice resulted in more susceptibility to worm infection via a mechanism that is dependent on intestinal acetylcholine, a neurotransmitter, necessary for intestinal motility (165).…”

Section: The Microbiome As a Major Environmental Variablementioning

confidence: 99%

The Influence of Genetic and Environmental Factors and Their Interactions on Immune Response to Helminth Infections

2022

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Helminth infection currently affect over 2 billion people worldwide, with those with the most pathologies and morbidities, living in regions with unequal and disproportionate access to effective healthcare solutions. Host genetics and environmental factors play critical roles in modulating and regulating immune responses following exposure to various pathogens and insults. However, the interplay of environment and genetic factors in influencing who gets infected and the establishment, persistence, and clearance of helminth parasites remains unclear. Inbred strains of mice have long been used to investigate the role of host genetic factors on pathogenesis and resistance to helminth infection in a laboratory setting. This review will discuss the use of ecological and environmental mouse models to study helminth infections and how this could be used in combination with host genetic variation to explore the relative contribution of these factors in influencing immune response to helminth infections. Improved understanding of interactions between genetics and the environment to helminth immune responses would be important for efforts to identify and develop new prophylactic and therapeutic options for the management of helminth infections and their pathogenesis.

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Microbial regulation of intestinal motility provides resistance against helminth infection

Cited by 19 publications

References 66 publications

Gastrointestinal symbiont diversity in wild gorilla: A comparison of bacterial and strongylid communities across multiple localities

Gastrointestinal symbiont diversity in wild gorilla: A comparison of bacterial and strongylid communities across multiple localities

Excretory-secretory products from the brown stomach worm, Teladorsagia circumcincta, exert antimicrobial activity in in vitro growth assays

The Influence of Genetic and Environmental Factors and Their Interactions on Immune Response to Helminth Infections

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