Evolution of resistance and disease tolerance mechanisms to oral bacterial infection in<i>D. melanogaster</i>

Paulo, Tânia F.; Akyaw, Priscilla A.; Paixão, Tiago; Sucena, Élio

doi:10.1101/2023.08.23.554397

2023

DOI: 10.1101/2023.08.23.554397

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Evolution of resistance and disease tolerance mechanisms to oral bacterial infection inD. melanogaster

Tânia F. Paulo,

Priscilla A. Akyaw,

Tiago Paixão

et al.

Abstract: Pathogens exert strong selection on hosts, that evolve and deploy different defensive strategies, namely minimizing pathogen exposure (avoidance), directly promoting pathogen elimination (resistance), and/or managing the deleterious effects of illness (disease tolerance). However, how the response to pathogens partitions across these processes has never been directly assessed in a single system, let alone in the context of known adaptive trajectories under controlled selection regimes. Here, an experimental ev… Show more

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2024

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Cited by 1 publication

References 95 publications

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Methylparaben dampens virulence and transmissibility of theDrosophilapathogenPseudomonas entomophila

Henry,

Canal-Domènech,

La Mendola

et al. 2024

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In the last 20 years, Pseudomonas entomophila (Pe) has emerged as a model to explore insect immunity to bacterial intestinal pathogens. Laboratory studies evidenced multiple detrimental effects of Pe on Drosophila melanogaster. However, these effects require that the bacteria are ingested in extremely high concentrations of 10 to the 10 - 10 to the 11 CFU per mL (OD600 20 - 200), questioning the relevance of this pathogen in nature. Here, we tested whether the need for such high doses may be due to protective effects of the food preservative methylparaben (Nipagin), a standard ingredient of artificial Drosophila diets. While significant mortality in flies fed diet containing standard methylparaben concentration required doses of >10 to the 10 CFU per mL, when methylparaben was absent we could observe mortality using 500,000 x lower doses. Consistent with these results, we demonstrated strong bactericidal properties of methylparaben on Pe in vitro. In the absence of methylparaben even the smallest inocula (10 to the 5 CFU per mL) led to high bacterial loads (10 to the 6 CFU per fly) after several days, indicating the ability of Pe to grow and overcome the flies defenses. We also demonstrate that in the absence of methylparaben, infected flies could easily transmit the pathogen to other adults and to offspring, resulting in high mortality and thus highlighting the potential of Pe as a pathogen of Drosophila in nature. Our study also underscores that careful consideration should be given to food additives used in standard diets in laboratory research on host-pathogen interaction.

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Methylparaben dampens virulence and transmissibility of theDrosophilapathogenPseudomonas entomophila

Henry,

Canal-Domènech,

La Mendola

et al. 2024

Preprint

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Evolution of resistance and disease tolerance mechanisms to oral bacterial infection inD. melanogaster

Cited by 1 publication

References 95 publications

Methylparaben dampens virulence and transmissibility of theDrosophilapathogenPseudomonas entomophila

Methylparaben dampens virulence and transmissibility of theDrosophilapathogenPseudomonas entomophila

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