A zWEDGI Technique to Visualize Fungal Pathogen-Infected Zebrafish Larvae
Published: January 31, 2024
Abstract
Source: Thrikawala, S. et al., Infection of Zebrafish Larvae with Aspergillus Spores for Analysis of Host-Pathogen Interactions. J. Vis. Exp. (2020)
The video demonstrates a zebrafish wounding and entrapment device technique for observing fluorescently labeled fungal pathogen infection in zebrafish larvae. Initial infection attracts macrophages, and as infection persists, neutrophil recruitment progresses at the injection site.
Protocol
1. Preparation of Aspergillus spores for injection From an Aspergillus spore suspension, calculate the volume needed to obtain 1 x 106 spores. The volume should be 20–100 μL; if not, produce a 10x dilution in 0.01% (v/v) sterile Tween-20 (Tween-water; Table of Materials). For example, if the calculated volume is 5 µL, produce a 10x dilution and use 50 µL of the diluted solution. NOT…
Disclosures
The authors have nothing to disclose.
Materials
| Dumont forceps #5 | Roboz Surgical Instrument Co. | RS-5045 | |
| Eyepiece reticle | Microscope World | RETR10 | For calibrating needles, used in Stereomicroscope |
| Microinjector setup: Back pressure unit | Applied Scientific Instrumentation | BPU | |
| Footswitch | Applied Scientific Instrumentation | FTSW | |
| Micro pipet holder kit | Applied Scientific Instrumentation | M-Pip | |
| Pressure injector | Applied Scientific Instrumentation | MPPI-3 | |
| Micromanipulator setup: Micromanipulator | Narashige (Tritech) | M-152 | |
| Magnetic stand and plate | Tritech | MINJ-HBMB | |
| Needle puller | Sutter Instrument | P-97 | |
| Stereomicroscope | Nikon | SMZ-745 | |
| Tissuelyser II | Qiagen | 85300 | To homogenize larvae |
| Material | |||
| Agarose | Fisher | BP160-500 | |
| Ampicillin sodium salt | Fisher | AAJ6380706 | |
| BSA, fraction V | VWR | AAJ65855-22 | |
| Kanamycin sulfate | Fisher | AAJ1792406 | |
| L spreaders | Fisher | 14 665 230 | |
| Microcapillary needles (no filament) | World Precision Instruments (WPI) | TW100-3 | |
| Microloader pipet tips | VWR | 89009-310 | To load the needle with Aspergillus suspension |
| Miracloth | VWR | EM475855-1R | To filter Aspergillus suspension |
| N-phenylthiourea | Fisher | AAL0669009 | To prevent pigmentation |
| Phenol red, 1% solution | Fisher | 57254 | |
| Tricaine (Ethyl 3-aminobenzoate, methanesulfonic acid salt) | Fisher | AC118000500 | To anesthetize larvae |
| Tween-20 | Fisher | BP337-500 | |
| Media and Solutions | Components/Recipe | ||
| E3 media: 60x E3 | 17.2 g NaCl, 0.76 g KCl, 2.9 g CaCl2, 4.9 g MgSO4 · 7H2O, to 1 L with H2O | ||
| 1x E3 | 16.7 ml 60x stock, 430 ul 0.05 M NaOH, to 1 L with H2O (optional: + 3 ml 0.01% methylene blue) | ||
| Tricaine stock solution | 2 g Tricaine, 5 g Na2HPO4 · 7H2O, 4.2 ml 60X E3, to 500 ml with H2O, pH to 7.0-7.5 with NaOH | ||
| Glucose minimal media (GMM) agar: GMM agar | 10 g Glucose (Dextrose), 50 ml 20x Nitrate salts, 1 ml TE, to 1 L with H2O, pH to 6.5 with NaOH, + 16 g Agar, autoclave | ||
| 20x Nitrate salts | 120 g NaNO3, 10.4 g KCl, 10.4 g, MgSO4 · 7H2O, 30.4 g, KH2PO4, to 1 L with H2O, autoclave | ||
| Trace elements (TE) | 2.20 g ZnSO4 · 7H2O, 1.10 g H3BO3, 0.50 g MnCl2 · 4H2O, 0.16 g FeSO4 · 7H2O, 0.16 g CoCl2 · 6H2O, 0.16 g CuSO4 · 5H2O, 0.11 g (NH4)6Mo7O24 · 4H2O, 5.00 g Na2EDTA, to 100 ml with H2O, dissolve stirring overnight, autoclave |
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Cite This Article
A zWEDGI Technique to Visualize Fungal Pathogen-Infected Zebrafish Larvae. J. Vis. Exp. (Pending Publication), e21877, doi: (2024).