Examine Chemoavoidance Behavior in Transgenic Worms Using Osmotic Avoidance Assay

Published: April 30, 2023

Abstract

Source: Wang, Q. et al., Z. Caenorhabditis elegans as a Model System for Discovering Bioactive Compounds Against Polyglutamine-Mediated Neurotoxicity. J. Vis. Exp. (2021).

This video describes an osmotic avoidance assay to examine chemoavoidance behavior in a transgenic worm model. Avoidance behavior is tested in a plate in the presence of a high-osmotic barrier and chemoattractant. The worms with a functional loss of neurons get attracted by the chemoattractant, cross the high-osmotic barrier, and become paralyzed in the trap zone because of the anesthetic solution.

Protocol

All procedures involving animal models have been reviewed by the local institutional animal care committee and the JoVE veterinary review board.

NOTE: See Table 1 for the recipes of solutions used in this protocol.

1. Preparation of materials for the Caenorhabditis elegans assay

  1. Maintenance of C. elegans strains
    1. Obtain C. elegans (AM141 and HA759) and Escherichia coli (OP50 and NA22) strains (see the Table of Materials).
    2. Maintain the nematodes on the nematode growth media (NGM) plate seeded with E. coli OP50 at 20 °C for AM141 or 15 °C for HA759.
  2. Preparation of E. coli OP50 bacterial culture
    1. Pick a single colony of E. coli OP50 from a Luria-Bertani (LB) streak plate and inoculate it into 50 mL of liquid LB culture.
    2. Incubate the OP50 bacteria in a shaker at 37 °C and 200 rpm until an optical density of ~0.5 at 570 nm (OD570).
    3. Store the OP50 bacterial culture at 4 °C and use it within two weeks.
  3. Preparation of NGM plates with OP50 bacteria
    1. Add 20 g of agar, 2.5 g of peptone, 3.0 g of NaCl, and 975 mL of deionized water to a 1 L autoclavable bottle. Autoclave at 121 °C for 30 min.
    2. Place the liquid NGM agar bottle on the bench to cool to ~60 °C, and then add the following sterile stock solutions: 1 mL of 1 M CaCl2, 1 mL of 1 M MgSO4, 1 mL of 5 mg/mL cholesterol, and 25 mL of 1 M potassium phosphate (pH 6.0).
    3. Pour 20 mL of NGM into a sterile 90 mm Petri dish, and leave the plates on the bench to cool and solidify. Keep the plates upside down and allow them to dry on the bench at room temperature for 2 days.
    4. Dispense 200 µL of the OP50 bacterial culture onto each NGM plate and spread evenly with a sterile glass coating rod. Close the lids and incubate the plates overnight at 37 °C.
    5. Store the NGM plates seeded with OP50 in a plastic box with a cover at room temperature and use within two weeks.
  4. Preparation of age-synchronized C. elegans population
    1. Collect gravid adult nematodes into a sterile 1.5 mL microcentrifuge tube and centrifuge at 1000 × g for 1 min. Wash three times and resuspend the nematodes in M9 buffer.
    2. Add an equal volume of bleach solution and agitate gently for 3-5 min. Monitor the bleaching every 15 s under a dissecting microscope.
      NOTE: The bleach solution must be prepared freshly before use by mixing equal volumes of 10% NaOCl and 1 M NaOH (Table 1).
    3. Once most of the nematodes are broken, stop the digestion by diluting with M9 buffer. Quickly centrifuge to remove the supernatant and resuspend the pellet in M9 buffer to repeat the washing three times.
    4. Resuspend the pellet in S medium. Let the nematode residues settle down by gravity for 2-3 min while the eggs remain in the supernatant.
    5. Aspirate the supernatant into a new sterile microcentrifuge tube. Collect the eggs by centrifugation at 1000 × g for 1 min.
    6. Discard ~80% of the supernatant and transfer the eggs into a sterile flask containing 20 mL of S medium. Place the flask in a shaker and incubate the eggs overnight without food at 120 rpm to obtain synchronized L1 nematodes.

2. PolyQ-mediated neurotoxicity assays

  1. Treatment of C. elegans with test samples
    1. To prepare nematodes for the polyQ neurotoxicity assay, transfer 300-500 synchronized L1 larvae of HA759 to each well of a 48-well plate with 500 µL of S medium containing OP50 (OD570 of 0.7-0.8) and 5 mg/mL of astragalan, typically three replicate wells for each treatment.
    2. Seal the plate with parafilm and incubate at 15 °C and 120 rpm for 3 days.
    3. Collect the nematodes by centrifugation and wash 3-5 times with M9 buffer. Resuspend the nematodes in M9 buffer for use in neuronal survival and avoidance assays.
  2. Osmotic avoidance assay
    1. Divide a food-free NGM plate (9 cm) into normal (N) and trap (T) zones by an 8 M glycerol (~30 µL) line in the middle. Spread a 200 mM sodium azide (~20 µL) line at ~1 cm away from the glycerol line to paralyze the nematodes crossing through the glycerol barrier into Zone T.
    2. Transfer ~200 nematodes each onto Zone N of three replicate plates for each group. Add a drop of 1% butanedione (~2 µL) onto Zone T (1 cm from the plate edge) to attract the nematodes. Cover the lid of the Petri dish immediately, and incubate at 23 °C for 90 min.
    3. Score the number of nematodes on the N and T zones under a microscope. Calculate the avoidance index using eq.
      Avoidance index = N / (T + N)
      Where N and T are the number of nematodes in N and T zones, respectively. Data are presented as means ± standard deviation (SD) of three replicates, representative of >3 independent experiments.
    4. Perform an unpaired, two-tailed t-test to compare the data from the astragalan and control groups.

Table 1:

Solution Preparation instructions Storage
1 M CaCl2 111 g CaCl2 Store at room temperature (RT)
Add dH2O to 1 L
Autoclave
1 M Potassium phosphate (pH 6.0) 108.3 g KH2PO4 Store at RT
35.6 K2HPO4
Add dH2O to 1 L
Autoclave
1 M MgSO4 246 g MgSO4·7H2O Store at RT
Add dH2O to 1 L
Autoclave
Cholesterol in ethanol (5 mg/mL) 0.5 g Cholesterol Store at -20 °C
Add ethanol to 100 mL
Do not autoclave!
1 M Potassium citrate (pH 6.0) Add 10.0 g citric acid monohydrate Store at RT
Add 146.75 g tri-potassium citric acid monohydrate
Add dH2O to 1 L
Autoclave
Trace metals solution 0.93 g Disodium EDTA Store in dark at RT
0.345 g FeSO4·7H2O
0.1 g MnCl2·4H2O
0.145 g ZnSO4·7H2O
Add 0.0125 g CuSO4·5H2O
Add dH2O to 500 mL
Autoclave
1 M NaOH 4 g NaOH Store at RT
Add dH2O to 100 mL
Bleach solution 0.5 mL of 1 M NaOH Prepare freshly before use
0.5 mL of 10% NaOCl
M9 buffer 5 g NaCl Store at RT
3 g KH2PO4
6 g Na2HPO4
Add dH2O to 1 L
Autoclave
Add 1 mL of 1 M MgSO4
S basal 5.85 g NaCl Store at RT
6.0 g KH2PO4
1.0 g K2HPO4
Add dH2O to 973 mL
Autoclave, and cool to ~60 °C
Add 1 mL of 5 mg/mL cholesterol in ethanol
S medium S basal Store at RT
Add 3 mL of 1 M CaCl2
Add 3 mL of 1 M MgSO4
Add 10 mL of 1 M potassium citrate
Add 10 mL of trace metals solution
All components have been autoclaved, do not autoclave
5 mg/mL of astragalan 0.1 g astragalan Store in aliquots at -80 °C
Add 20 mL of S medium
Filter through 0.22 μm syringe filter
200 mM of sodium azide 1.3 g NaN3 Store at 4 °C
Add 100 mL of S medium
8 M Glycerol 73.67 g glycerol Store at RT
Add dH2O to 100 mL
10% Butanedione stock Mix 10 μL of butanedione with 90 μL of dH2O Store at RT
1% Butanedione Add 10 μL of butanedione stock to 90 μL of dH2O Store at RT
1 L of Luria-Bertani (LB) culture 10 g NaCl Store at RT
10 g Tryptone
5 g Yeast extract
Add dH2O to 1 L
Autoclave

Divulgazioni

The authors have nothing to disclose.

Materials

C. elegans strains
HA759
rtIs11 [osm-10p::GFP + osm-10p::HtnQ150 + dpy-20(+)]
Caenorhabditis Genetics Center (CGC) https://cgc.umn.edu/strain/HA759
E. coli strains
NA22 Caenorhabditis Genetics Center (CGC) https://cgc.umn.edu/strain/NA22
OP50 Caenorhabditis Genetics Center (CGC) https://cgc.umn.edu/strain/OP50
Reagent
Agar Shanghai EKEAR Bio-Technology Co., Ltd. EQ1001-500G https://www.ekear.com
Butanedione Sinopharm Chemical Reagent Co., Ltd. 80042427 https://www.reagent.com.cn/goodsDetail/d027c00e64c9404d9aa41391fbb
595d0
Cholesterol Sigma-Aldrich C8667 https://www.sigmaaldrich.cn/CN/zh/product/sigma/c8667?context=product
Glycerol Aladdin Co., Ltd. G116203 https://www.aladdin-e.com/zh_cn/g116203.html
Peptone Guangdong HuanKai Microbial Science and Technology Co., Ltd. 050170B https://www.huankai.com/show/21074.html
Sodium azide Sinopharm Chemical Reagent Co., Ltd. 80115560 https://www.reagent.com.cn/goodsDetail/5e981aa807664e26af
551e96ff5f07cd
Sodium hydroxide Sinopharm Chemical Reagent Co., Ltd. 10019718 https://www.reagent.com.cn/goodsDetail/450dfdb1132a4d8a817
d3d8c68ec25e6
Sodium hypochlorite solution Guangzhou Chemical Reagent Factory 7681-52-9 http://www.chemicalreagent.com/product/DetailProduct.aspx?id=125
Tryptone Oxoid Ltd. LP0042B https://www.thermofisher.cn/order/catalog/product/LP0042B#/LP0042B
Yeast extract Oxoid Ltd. LP0021B https://www.thermofisher.cn/order/catalog/product/LP0021B#/LP0021B
Equipment
48-well cell culture plate Nest Biotechnology Co., Ltd. 748001 https://www.cell-nest.com/page94?_l=en&product_id=85
90 mm Petri dish Sangon Biotech (Shanghai) Co., Ltd. F611003 https://www.sangon.com/productDetail?productInfo.code=F611003
Autoclave Panasonic MLS-3781L-PC
Dissecting microscope ChongQing Optical Co., Ltd. ZSA0745 http://www.coicuop.com/plus/view.php?aid=64
Microcentrifuge GeneCompany GENESPEED X1 https://www.genecompany.com/index.php/Home/Goods/goodsdetails/gid/189.html
Parafilm M Sigma-Aldrich P7793-1EA https://www.sigmaaldrich.cn/CN/en/product/sigma/p7793?context=product
Shaker Zhicheng Inc. ZWY-2102C http://www.zhicheng.net/Product/0865291356.html

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Citazione di questo articolo
Examine Chemoavoidance Behavior in Transgenic Worms Using Osmotic Avoidance Assay. J. Vis. Exp. (Pending Publication), e21286, doi: (2023).

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