Overview
In this video, we demonstrate the technique to measure transcellular interactions between synaptic cell adhesion molecules through the HEK cell aggregation assay. In this assay, an equal number of HEK cells expressing a desired presynaptic cell adhesion molecule and a fluorescent protein are mixed with HEK cells expressing a post-synaptic cell adhesion molecule and another fluorescent protein. The interaction between the cell adhesion molecules forces the cells to aggregate, which can be measured by fluorescence microscopy.
Protocol
1. Cell culture and transfection
- Make HEK cell media with DMEM, 1x (Dulbecco's Modification of Eagle's Medium) supplemented with 4.5 g/L glucose, L-glutamine & sodium pyruvate, and 10% FBS. Sterile filter.
- Predetermine suitable ligands and receptors for aggregation assay.
NOTE: Neurexin3α SS4+/- and one of its known ligands, LRRTM2, were used in this study. Ligands and receptors of interest were expressed from cDNAs in pcDNA3.1. A Gibson assembly was used to insert Neurexin3α into pcDNA3.1. Neurexin3α F/R:
TTTAAACTTAAGCTTGGTACCGAGCTCGGATCCGCCACCATGAGCTTTACCCTCCACTC/
GAGCGGCCGCCACTGTGCTGGATATCTGCAGAATTCTTACACATAATACTCCTTGTCCTT. - Prepare HEK293T cells.
- Grow HEK293T cells to confluency in one T-75 flask.
- Once confluent, use 2 mL of trypsin and place in a 37 °C incubator for 2 min. Add 6 mL of HEK media to the flask to resuspend cells and transfer all 8 mL to a 15 mL conical tube.
- Pellet at 500 x g for 5 min and resuspend in HEK cell media for a total of 8 mL.
- Count cells and add 735,000 cells into each well of a 6-well plate. Adjust the final volume to 2 mL for each well using HEK cell media.
- Place in a 37 °C incubator and allow cells to grow overnight or until they reach 50-60% confluency.
- Transfect HEK293T cells using the calcium phosphate method.
- Transfect well-1 with 3 µg of the protein of interest and co-transfect with 1 µg of fluorescent protein (3 µg of pcDNA3.1-Neurexin3αWT SS4- and 1 µg of mCherry).
- Transfect well-2 as in step 1.4.1. but with the mutated protein of interest (pcDNA3.1-Neurexin3αA687T SS4-).
- Transfect well-3 with 3 µg of the ligand of interest and co-transfect with 1 µg of another fluorescent protein (3 µg of pcDNA3.1 LRRTM2 and 1 µg of GFP).
- Transfect well-4 and well-5 to serve as negative controls: well-4 with 1 µg of GFP and well-5 with 1 µg of mCherry.
- Prepare another plate (as in steps 1.4.1-1.4.4) if requiring additional conditions or controls (Neurexin3αWT/A687T SS4+).
NOTE: Transfection efficiency is analyzed 24 h after transfection under an epifluorescence microscope and quantified as the number of cells expressing the fluorescent protein they were transfected with. A more streamlined approach would include the transfection of HEK cells with a bicistronic vector coding for a fluorescent protein and the ligand of interest and is highly recommended above co-transfection. In the case of this study, alpha Neurexins are ~4.3 kb and low fluorescence intensity was observed using a bicistronic system necessitating co-transfection.
- 48 hours after transfection, harvest cells for aggregation.
- Wash each well twice with PBS.
- Add 1 mL of 10 mM EDTA in PBS into each well to gently dissociate cell-to-cell interactions and incubate the plate at 37 °C for 5 min.
NOTE: Trypsin is not recommended for step 1.5.b due to the potential proteolytic cleavage of adhesion molecules in the study. Additionally, after EDTA addition the protocol may not be stopped until completion as cells will now be exposed to ambient conditions. - Gently tap the plate to detach the cells, and harvest each well into separate 15 mL conical tubes.
- Centrifuge conical tubes at 500 x g and room temperature for 5 min.
- While cells are pelleting, prepare 6 incubation tubes by labeling the top of each microcentrifuge tube with each condition.
NOTE: Each permutation of GFP and mCherry conditions should be used to encompass all experimental conditions and proper controls. For example: 1. GFP/mCherry, 2. mCherry/LRRTM2-GFP 3. GFP/Neurexin3αWT SS4-—mCherry, 4. GFP/Neurexin3αA687T SS4- –mCherry, 5. Neurexin3αWT SS4-—mCherry/LRRTM2—GFP, 6. Neurexin3αA687T SS4- –mCherry/LRRTM2—GFP. Make additional tubes to accommodate further conditions and controls. - Remove the supernatant and resuspend cells in 500 µL of HEK media with 10 mM CaCl2 and 10 mM MgCl2 warmed to 37 °C.
NOTE: The addition of CaCl2 and MgCl2 allows adhesion molecules to reestablish binding and is only required if the transcellular interaction partners in question require divalent cations for adhesion. - Count the cells in each 15 mL conical tube using a hemocytometer and aliquot 200,000 cells of each condition into an appropriate tube from step 1.6 for a 1:1 mix in a total volume of 500 µL.
NOTE: It should only take 5 min per condition to count and aliquot amounts. - Incubate tubes at room temperature in a slow tube rotator.
2. Image acquisition
- Optimize microscope acquisition parameters for specific samples. In this example, images were taken on a wide-field microscope. Use a 5x air objective (NA: 0.15; WD: 20000 μm) to get a large enough field for analysis.
- Assess baseline aggregation immediately after mixing the two conditions of HEK cells in step 1.8. These are now the 'time zero' images.
- Pipette 40 µL of each sample mixture onto a charged microscope slide and image under fluorescence in both the 488 and 561 channels.
- Acquire three different fields of view at one focus plane per sample drop.
- Acquire final images at 60 min as the 'time 60' image.
- To obtain the 'time 60' image of the mixture after a 60 min incubation, take another 40 µL sample of each condition from rotating tubes and pipette each sample onto a charged slide. Image as in step 2.2.
NOTE: Cell aggregation should be checked every 15 min until saturation occurs. The timing of aggregation will depend on the proteins being tested.
- To obtain the 'time 60' image of the mixture after a 60 min incubation, take another 40 µL sample of each condition from rotating tubes and pipette each sample onto a charged slide. Image as in step 2.2.
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Materials
| Name | Company | Catalog Number | Comments |
| 5 mL disposable microtubes with snap caps | VWR | 89000-028 | Incubation of mixed population of HEK cells |
| 1000 mL Rapid—Flow Filter Unit, 0.2 um aPES membrane | Thermo Fisher | 567-0020 | Sterilization of HEK media |
| 15 mL SpectraTube centrifuge tubes | Ward’s Science | 470224-998 | Harvesting HEK cells |
| 6-well sterile tissue culture plates | VWR | 100062-892 | Culturing HEK cells |
| Calcium Chloride | Sigma | 223506-500G | Calcium phosphate transfection, HEK cell resuspension |
| Centrifuge - Sorvall Legend RT | Kendro Laboratory Products | 75004377 | Harvesting HEK cells |
| CO2 cell incubator | Thermo Scientific | HERACELL 150i | Incubation of HEK cells during growth |
| DMEM, 1x (Dulbecco's Modification of Eagle's Medium) with 4.5 g/L glucose, L-glutamine & sodium pyruvate | Corning | 10-013-CV | HEK cell maintenance |
| Dulbecco’s Phosphate-Buffered Saline PBS (1X) | Gibco | 14190-144 | Passaging/harvesting HEK cell |
| Ethylenediaminetetraacetic acid | Sigma | ED-500G | Harvesting HEK cells |
| Falcon Vented culture flasks, 75cm2 growth area | Corning | 9381M26 | Culturing HEK cells |
| Fetal Bovine Serum | Sigma | 17L184 | HEK cell maintenance |
| HEK293T cells | ATCC | Model system | |
| ImageJ | NIH | V: 2.0.0-rc-69/1.52p | Image analysis |
| Magnesium Chloride hexahydrate | Sigma | M9272-500G | HEK cell resuspension |
| Sodium phosphate dibasic anhydrous | Fisher BioReagents | BP332-500 | Calcium phosphate transfection |
| Tube rotator | Incubation of mixed population of HEK cells | ||
| UltraClear Microscope slides. White Frosted, Positive Charged | Denville Scientific Inc. | M1021 | Image acquisition |
| Wide-field microscope | Zeiss | Axio Vert 200M | Image acquisition |
