Anh Trinh Nguyen scite author profile

The zebrafish (Danio rerio) has become a widely used vertebrate model for bacterial, fungal, viral, and protozoan infections. Due to its genetic tractability, large clutch sizes, ease of manipulation, and optical transparency during early life stages, it is a particularly useful model to address questions about the cellular microbiology of host-microbe interactions. Although its use as a model for systemic infections, as well as infections localised to the hindbrain and swimbladder having been thoroughly reviewed, studies focusing on host-microbe interactions in the zebrafish gastrointestinal tract have been neglected. Here, we summarise recent findings regarding the developmental and immune biology of the gastrointestinal tract, drawing parallels to mammalian systems. We discuss the use of adult and larval zebrafish as models for gastrointestinal infections, and more generally, for studies of host-microbe interactions in the gut. K E Y W O R D S Danio rerio, gastrointestinal tract, host-pathogen interactions, infection model, microbiome, microbiota, zebrafish

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Using the Protozoan <em>Paramecium caudatum</em> as a Vehicle for Food-borne Infections in Zebrafish Larvae

Flores

Thompson

Sirisaengtaksin

et al. 2019

JoVE

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Due to their transparency, genetic tractability, and ease of maintenance, zebrafish (Danio rerio) have become a widely-used vertebrate model for infectious diseases. Larval zebrafish naturally prey on the unicellular protozoan Paramecium caudatum. This protocol describes the use of P. caudatum as a vehicle for food-borne infection in larval zebrafish. P. caudatum internalize a wide range of bacteria and bacterial cells remain viable for several hours. Zebrafish then prey on P. caudatum, the bacterial load is released in the foregut upon digestion of the paramecium vehicle, and the bacteria colonize the intestinal tract. The protocol includes a detailed description of paramecia maintenance, loading with bacteria, determination of bacterial degradation and dose, as well as infection of zebrafish by feeding with paramecia. The advantage of using this method of food-borne infection is that it closely mimics the mode of infection observed in human disease, leads to more robust colonization compared to immersion protocols, and allows the study of a wide range of pathogens. Food-borne infection in the zebrafish model can be used to investigate bacterial gene expression within the host, host-pathogen interactions, and hallmarks of pathogenicity including bacterial burden, localization, dissemination and morbidity.

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EGF-mediated suppression of cell extrusion during mucosal damage attenuates opportunistic fungal invasion

et al. 2021

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EGF-mediated suppression of cell extrusion during mucosal damage attenuates opportunistic fungal invasionGraphical abstract Highlights d Inducible epithelial cell loss allows modeling of fungal infection in zebrafish larvae d Extrusion of numerous cells exposes laminin and increases fungal adhesion and invasion d Cell extrusion stimulates epigen, mmp13a, and il1b expression and neutrophil recruitment d rhEPGN suppresses extrusion to provide protective effects against fungal invasion

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Anh Trinh Nguyen

The zebrafish as a model for gastrointestinal tract–microbe interactions

Using the Protozoan <em>Paramecium caudatum</em> as a Vehicle for Food-borne Infections in Zebrafish Larvae

EGF-mediated suppression of cell extrusion during mucosal damage attenuates opportunistic fungal invasion

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