A Technique to Establish a Bacterial Infection Model in Insect Larvae

Protocole

NOTE: All work described below is to be carried out in a CL2 laboratory within a class 2 microbiological safety cabinet (MSC) following local health and safety guidelines.

1. Preparation of M. bovis BCG lux for Infection

1. Defrost a frozen 1.2 mL glycerol (15%) stock of M. bovis BCG lux, the Montreal vaccine strain transformed with the shuttle plasmid pSMT1 carrying the luxAB genes from Vibrio harveyi encoding the luciferase enzyme.
2. Inoculate 15 mL of Middlebrook 7H9 broth containing 0.2% glycerol, 10% albumin, dextrose, catalase (ADC) enrichment, and 50 µg/mL hygromycin with a defrosted 1.2 mL aliquot of BCG lux, in a labeled 250 mL Erlenmeyer flask.
3. Place the flask in a sealed biosafety container and incubate at 37 °C in an orbital shaker incubator at 220 rpm for 72 h (or until the culture reaches the mid-log phase of growth).
4. Check the growth of BCG lux culture by preparing 1:10 dilutions of the culture in luminometer tubes using phosphate-buffered saline (PBS, pH 7.4, 0.01 M phosphate buffer, 0.0027 M potassium chloride, and 0.137 M sodium chloride) in duplicate. Vortex, and load the luminometer tubes into the luminometer and measure the bioluminescence (relative light unit [RLU]/mL) using n-decyl aldehyde as the substrate (1% v/v in absolute ethanol).
   NOTE: The ratio of RLU/colony forming units (CFU) was previously determined to be 3:1 when BCG lux was grown in vitro in Middlebrook 7H9 broth.
5. Centrifuge the culture at 2,175 x g for 10 min at room temperature to pellet the cells and discard the supernatant into an appropriate disinfectant with known mycobactericidal activity. Dispose of all culture waste with disinfectants appropriate for mycobacteria following local guidelines.
6. Wash the cell pellet twice in PBS containing 0.05% polysorbate 80 (PBS-T) to prevent bacterial clumping.
7. Following the final wash, decant waste supernatant, resuspend the mycobacterial cell pellet in PBS-T, and dilute the mycobacterial suspension to the desired cell density using RLU measurements.
8. Prepare ten-fold serial dilutions of the inoculum in 24-well plates using PBS-T. Plate out 10 µL onto Middlebrook 7H11 agar plates (0.5% glycerol, 50 µg/mL hygromycin, 10% oleic acid, albumin, dextrose, catalase [OADC]) in duplicate to enumerate inoculum CFU counts.

2. Preparation of G. mellonella Larvae

1. Purchase last instar larvae from appropriate sources and maintain the larvae in the dark at 18 °C upon arrival and use within 1 week of purchase. Alternatively, larvae can be self-reared following the protocol of Jojāo et al. For purchased larvae, discard any dead, discolored, or pupating larvae prior to storage.
   NOTE: Pupating larvae are morphologically distinguishable from the last instar larvae.
2. Identify and select healthy larvae for experimentation, based on uniform cream color with little to no discoloration (melanization), size (2−3 cm in length), weight (approximately 250 mg), displaying a high level of motility, and possessing the ability to right themselves when turned over.
3. Carefully count the healthy larvae (minimum of 20−30 per group) into a Petri dish (94/15 mm) lined with a layer of filter paper (94/15 mm) using blunt-end tweezers to minimize contamination and store at room temperature in the dark until use.

3. Infecting G. mellonella with BCG lux

1. Minimize the clutter within the MSC to reduce the risk of contamination and needle stick injury.
2. Prepare the injection platform by taping a circular filter paper (94 mm) to a flat raised surface. Soft or hard surfaces can be used and are entirely dependent on user preference, e.g., pipette box lids or a nylon scouring sponge.
3. Sterilize a 25 µL microsyringe (25 G) by aspirating 3 volumes of 70% ethanol and further rinse with 3 volumes of sterile PBS-T.
4. Aspirate 10 µL of BCG lux inoculum (prepared in section 1) or PBS-T into the sterilized 25 µL microsyringe. Use a separate syringe for PBS-T negative control.
   NOTE: Resuspend the BCG lux inoculum following 10 injections to ensure uniform cell suspension.
5. Use tweezers to pick up one larva and place it onto the injection platform.
6. On the platform, flip the larva onto its back and immobilize it by securing the head and tail with tweezers. Locate the last left proleg counting down from the head of the larva and carefully insert the tip of the needle (5−6 mm) at a 10−20° angle to the horizontal plane.
   NOTE: Short and narrow tweezers allow for easy immobilization with minimum larval stress. Pay attention not to over penetrate which may puncture the gut and cause non-BCG lux specific melanization or death.
7. Count the infected larvae into a Petri dish lined with a layer of filter paper, a single 90 mm Petri dish can accommodate up to 30 larvae.
8. Store the Petri dish containing the larvae in a vented or non-sealed dark box inside an incubator at 37 °C with 5% CO₂.

4. Monitoring the Survival of G. mellonella Following Infection

1. Over the time course, monitor the survival of the larvae every 24 hours. Larvae are considered dead when they fail to move in response to touch.

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matériels

Name	Company	Catalog Number	Comments
1.5ml reaction tube (Eppendorf)	Eppendorf	22431021
20, 200 and 1000 µl pipette and filtered tips	Any supplier	n/a
24-well culture plate	Greiner	662160
25 ml pipettes and pipette boy	Any supplier	n/a
3 compartment Petri dish (94/15mm)	Greiner	637102
Centrifuge	Any supplier	n/a
Class II safety cabinet	Any supplier	n/a
Erlenmeyer flask with vented cap (250 ml)	Corning	CLS40183
Ethanol (>99.7%)	VWR	208221.321
Galleria mellonella (250 per pk)	Livefood Direct UK	W250
Glycerol	Sigma-Aldrich	G5150
Hygromycin B	Corning	30-240CR
Micro syringe (25 µl, 25 ga)	SGE	3000
Microcentrifuge	Any supplier	n/a
Middlebrook 7H11 agar	BD Bioscience	283810
Middlebrook 7H9 broth	BD Bioscience	271310
Middlebrook ADC enrichment	BD Bioscience	212352
Middlebrook OADC enrichment	BD Bioscience	212240
Mycobacterium bovis BCG lux	Various	n/a
n-decyl aldehyde	Sigma-Aldrich	D7384-100G
Orbital shaking incubator	Any supplier	n/a
Phosphate-buffered saline	Sigma-Aldrich	P4417-100TAB
Polysorbate 80 (Tween-80)	Sigma-Aldrich	P8074-500ml
Small box	Any supplier	n/a	dark vented or non-sealed box recommended
Tweezer	Any supplier	n/a	Short and narrow tipped/Blunt long tweezers
Petri dish (94/15mm)	Greiner	633181
Filter paper (94mm)	Any supplier	n/a	Cut to fit