Split Luciferase Complementation Assay to Identify Specific Protein-Protein Interactions
Published: April 30, 2023
Abstract
Source: Wiertelak, W. et.al., Demonstration of Heterologous Complexes formed by Golgi-Resident Type III Membrane Proteins using Split Luciferase Complementation Assay. J. Vis. Exp. (2020)
This video demonstrates the split luciferase complementation assay to detect protein-protein interactions. In this assay, the proteins of interest are tagged to small and large fragments of the luciferase enzyme. When the proteins interact, the large and small fragments combine to form an active enzyme complex, which in the presence of a specific substrate, releases bright luminescence that can be measured.
Protocol
1. Transient transfection of the expression plasmids into the cells
- Harvest the adherent HEK293T cell culture by trypsinization and resuspend the cells in a dedicated complete growth medium. Plate the cells (2 x 104/100 µL/well) onto a clear bottom, white side 96-well plate. Adjust the total number of wells to accommodate all tested combinations and controls including replicates.
NOTE: Attempt to use only the inner 60 wells of the plate to minimize thermal shifts and avoid overnight evaporation. Using poly-D-lysine-coated plates is highly recommended such as the ones indicated in the Table of Materials, otherwise, cells may detach during the subsequent washing steps. - Culture the cells overnight in standard conditions (37 °C, 5% CO2).
- On the next day transfect the cells with the desired combinations of expression plasmids.
- Dilute expression plasmids in a serum-free medium (see Table of Materials) to 6.25 ng/µL for each construct.
- Add the lipid-based transfection reagent at an appropriate lipid-to-DNA ratio and incubate according to the manufacturer’s instructions.
- Add 8 µL of lipid: DNA mixture to designated wells. Mix the content of the plate by gentle rotation. This results in the transfection of both expression constructs at 50 ng/well.
- Culture the cells for 20-24 h in standard conditions (37 °C, 5% CO2).
NOTE: Culturing the cells for a longer time may result in higher levels of fusion protein expression, which may promote a non-specific association between the fragments.
2. Medium exchange
- On the next day replace the conditioned medium with 100 µL of a serum-free medium in each well. Make sure that the cells have not detached upon medium exchange.
NOTE: This step should be done 2-3 h before the addition of the furimazine working solution. Serum withdrawal minimizes background caused by auto-luminescence of furimazine.
3. Preparation of furimazine working solution
- Just before the measurement, mix 1 volume of furimazine with 19 volumes of a dilution buffer (a 20-fold dilution).
NOTE: The total volume of the furimazine working solution to be prepared depends on the number of individual wells to be analyzed (the furimazine working solution is added to the cell culture medium in a 1:5 ratio, therefore, to each well previously filled with 100 µL of a serum-free medium 25 µL of the furimazine working solution should be added). - Add the furimazine working solution to designated wells (25 µL/well). Gently mix the plate by hand or using an orbital shaker (e.g., 15 s at 300-500 rpm).
4. Measuring luminescence
- Insert the plate into a luminescence microplate reader.
- For experiments that are to be performed at 37 °C equilibrate the plate for 10-15 min at the indicated temperature.
- Select the wells to be analyzed.
- Read luminescence with an integration time of 0.3 s. Continue to monitor luminescence for up to 2 h when required.
Disclosures
The authors have nothing to disclose.
Materials
| 0.25% trypsin-EDTA solution | Cell culture | ||
| Adherent mammalian cell line | Cell culture | ||
| BioCoat Poly-D-Lysine 96-well White/Clear Flat Bottom TC-treated Microplate, with Lid | Corning | 356651 | Plastic ware |
| Cell culture centrifuge | Plastic ware | ||
| Cell culture supplements (heat-inactivated fetal bovine serum, L-glutamine, penicillin, streptomycin) | Cell culture | ||
| CO2 incubator | Device | ||
| Expression plasmids encoding protein(s) of interest not tagged with NanoBiT fragments | Assay | ||
| FuGENE HD Transfection Reagent | Promega | E2311 | Assay |
| GloMax Discover Microplate Reader (or a different luminescence microplate reader) | Promega | GM3000 | Device |
| Growth medium dedicated to the cell line used | Cell culture | ||
| Materials and reagents for standard molecular cloning (bacteria, thermostable polymerase, restriction enzymes, DNA ligase, materials and reagents for nucleic acid purification) | Assay | ||
| NanoBiT MCS Starter System | Promega | N2014 | This kit contains vectors enabling tagging of the proteins of interest with NanoBiT fragments at different orientations as well as the control plasmid encoding HaloTag protein fused with SmBiT and a positive control plasmid pair. |
| Nano-Glo Live Cell Assay System | Promega | N2011 | This kit contains furimazine, which is a substrate enabling detection of the NanoLuc activity in living cells, and a dedicated dilution buffer. |
| Opti-MEM I Reduced Serum Medium, no phenol red | Gibco | 11058021 | Cell culture |
| Orbital shaker | Device |
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Cite This Article
Split Luciferase Complementation Assay to Identify Specific Protein-Protein Interactions. J. Vis. Exp. (Pending Publication), e21332, doi: (2023).