An Assay to Evaluate the Effect of Test Compounds on Viral Entry and Fusion in Host Cells

Published: February 29, 2024

Abstract

Source: Tai, C., et al. Early Viral Entry Assays for the Identification and Evaluation of Antiviral Compounds. J. Vis. Exp. (2015).

This video demonstrates an assay to evaluate antiviral agents that target specific steps of the viral entry into host cells and fusion with the endosome. The cells are incubated at a low temperature and then infected with HCV. The low temperature permits viral binding to host cells but inhibits internalization via endocytosis. The test antiviral compound is added, and the cells are incubated at physiological temperature. This shift to a higher temperature facilitates viral entry and allows assessment of the impact of the test compound on viral envelope fusion with endosomes.

Protocol

Note: Ensure that all procedures involving cell culture and virus infection are conducted in certified biosafety hoods that are appropriate for the biosafety level of the samples being handled. For the purpose of describing the protocols, Gaussia luciferase reporter-tagged HCV is used as a model virus. In the context of the representative results, the compounds chebulagic acid (CHLA) and punicalagin (PUG) are used as candidate antivirals that target viral glycoprotein interactions with cell surface glycosaminoglycans during the early viral entry steps. Heparin, which is known to interfere with the entry of many viruses, is used as a positive control treatment in such a context.

1. Cell Culture, Compound Preparation, and Compound Cytotoxicity

  1. Grow the respective cell line for the virus infection system to be analyzed (Table 1). For HCV, grow the Huh-7.5 cells in Dulbecco's modified Eagle's medium (DMEM) supplemented with 10% fetal bovine serum (FBS), 200 U/ml penicillin G, 200 µg/ml streptomycin, and 0.5 µg/ml amphotericin B.
  2. Prepare the test compounds and controls using their respective solvents: for example, dissolve CHLA and PUG in dimethyl sulfoxide (DMSO); prepare heparin in sterile double-distilled water. For all subsequent dilutions, use culture media.
    Note: The final concentration of DMSO in the test compound treatments is less than 1% in the experiments; 1% DMSO is included as a negative control treatment in the assays for comparison.
  3. Determine the cytotoxicity of the test compounds (e.g., CHLA and PUG) on the cells for the viral infection by using cell viability determining reagent such as XTT (2,3-bis[2-methoxy-4-nitro-5-sulfophenyl]-5-phenylamino)-carbonyl]-2H-tetrazolium hydroxide):
    1. For HCV, seed Huh-7.5 cells in a 96-well plate (1 × 104 cells per well) and incubate at 37 °C in a 5% CO2 incubator O/N to obtain a monolayer.
    2. Apply DMSO control (1%) or increasing concentrations of the test compounds CHLA and PUG (ex. 0, 10, 50, 100, and 500 μM) to the culture wells in triplicate.
    3. Incubate at 37 °C for 72 hr, then discard the medium in the plate and wash the cells with 200 μl of phosphate-buffered saline (PBS) twice.
    4. Add 100 µl of assaying solution from the XTT-based in vitro toxicology assay kit to each well and incubate the plates at 37 °C for another 3 hr to allow XTT formazan production.
    5. Determine the absorbance with a microplate reader at a test wavelength of 492 nm and a reference wavelength of 690 nm.
    6. Calculate the percentage of surviving cells using the following formula: cell viability (%) = At / As × 100%, where 'At' and 'As' refer to the absorbance of the test compounds and the solvent control (ex. 1% DMSO) treatments, respectively. Determine the concentration of 50% cellular cytotoxicity (CC50) of the test compounds from an analytical software such as GraphPad Prism according to the manufacturer's protocol.

2. Readout of Viral Infection

Note: The readout of viral infection depends on the virus system used and can involve methods such as plaque assays or measuring reporter signals from reporter-tagged viruses. The method for detecting reporter-HCV infection based on the luciferase reporter activity is described below.

  1. Collect the supernatants from the infected wells and clarify at 17,000 x g in a microcentrifuge for 5 min at 4 °C.
  2. Mix 20 μl of test supernatant to 50 μl of luciferase substrate from the Gaussia luciferase assay kit and directly measure with a luminometer according to the manufacturer's instructions.
  3. Express HCV infectivity as log10 of relative light units (RLU) for determining viral inhibition (%) and calculate the 50% effective concentration (EC50) of the test compounds against HCV infection using algorithms from GraphPad Prism software according to the manufacturer's protocol.

3. Viral Entry/Fusion Assay

Note: Examples of incubation periods and viral doses for various viruses are listed in Figure 1A 'Entry/Fusion'. Higher concentrations of the virus can also be tested by increasing the MOI/PFU.

  1. Seed Huh-7.5 cells in a 96-well plate (1 × 104 cells per well), and incubate at 37 °C in a 5% CO2 incubator O/N to obtain a monolayer.
  2. Pre-chill the cell monolayers in plates at 4 °C for 1 hr.
  3. Infect the cells with HCV (multiplicity of infection, MOI = 0.01) at 4 °C for 3 hr. For example, use a 100 μl virus inoculum containing 1 x 102 focus forming units (FFU).
    Note: Perform the addition of the viral inoculum on ice and the ensuing incubation in a 4 °C refrigerator to maintain the temperature at 4 °C, which permits viral binding but not entry.
  4. Remove the supernatant and gently wash the cell monolayers with 200 μl of ice-cold PBS twice.
    Note: Perform the washes gently to avoid lifting the cells.
  5. Treat the wells with the test compounds or controls (final concentrations are: CHLA = 50 μM; PUG = 50 μM; heparin = 1,000 μg/ml; DMSO = 1%) and incubate at 37 °C for 3 hr. For example, add 10 μl of a 500 μM CHLA working dilution to 90 μl of media, mix, and treat the wells; this yields CHLA treatment at a final concentration of 50 μM.
    Note: The shift from 4 °C to 37 °C now facilitates the viral entry/fusion event and therefore allows assessment of test compounds' effect on this particular step.
  6. Aspirate the drug-containing supernatant and remove non-internalized extracellular viruses by either washing with 200 μl of citrate buffer (50 mM sodium citrate, 4 mM potassium chloride, pH 3.0) or PBS. Apply 100 μl of the basal medium before incubating at 37 °C for 72 hr.
  7. Analyze the resulting infection by assaying the supernatant for luciferase activity as described in '2. Readout of Viral Infection'.

Representative Results

Table 1: Host cell type for viral infection. The cell type used for each viral infection system described in the representative results is indicated.

Virus Cell Type
HCMV HEL
HCV Huh-7.5
DENV-2 Vero
MV CHO-SLAM
RSV HEp-2

Figure 1
Figure 1. Evaluation of antiviral activities of the test compounds CHLA and PUG against virus attachment and entry/fusion. (A) The experimental procedure, virus concentration (PFU/well or MOI), and the time of addition and treatment with the test compounds (i, ii, iii) are presented for each virus in the schematics and the associated tables. In virus attachment analysis (light gray bars), monolayers of different cell types were pre-chilled at 4 °C for 1 hr, then co-treated with the respective viruses and test compounds at 4 °C (1.5 – 3 hr; i) before washing off the inoculates and test compounds for subsequent incubation (37 °C; ii) and examination of virus infection. In virus entry/fusion analysis (dark gray bars), seeded cell monolayers were pre-chilled at 4 °C for 1 hr and then challenged with the respective viruses at 4 °C for 1.5 – 3 hr (i). Cells were then washed and treated with the test compounds for an additional incubation period (ii) during which the temperature was shifted to 37 °C to facilitate the viral entry/fusion event. At the end of the incubation, extracellular viruses were removed by either citrate buffer (pH 3.0) or PBS washes, and the cells were further incubated (iii) for analysis of virus infection. Results for (B) HCMV, (C) HCV, (D) DENV-2, (E) MV, and (F) RSV are indicated in each additional panel. Data are plotted against the DMSO negative control treatment of virus infection and are presented as means ± SEM from three independent experiments. This figure has been modified from the reference.

Declarações

The authors have nothing to disclose.

Materials

DMEM GIBCO 11995-040
FBS GIBCO 26140-079
Penicillin-Streptomycin GIBCO 15070-063
Amphotericin B GIBCO 15290-018
DMSO Sigma D5879
In vitro toxicology assay kit, XTT-based Sigma TOX2
PBS pH 7.4 GIBCO 10010023
Microplate reader Bio-Tek Instrument, Inc. ELx800
Microcentrifuge Thermo Scientific 75002420
BioLux Gaussia luciferase assay kit New England Biolabs E3300L
Luminometer Promega GloMax-20/20
Sodium citrate, dihydrate Sigma 71402
Potassium chloride Sigma P5405

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An Assay to Evaluate the Effect of Test Compounds on Viral Entry and Fusion in Host Cells. J. Vis. Exp. (Pending Publication), e22000, doi: (2024).

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