Retroviral Transduction of T-cell Receptors in Mouse T-cells

1. Prepare Retroviral Construct

1. Sub-clone the T-cell receptor (TCR) gene of interest into a retroviral vector (Figure 1, example vectors pMSG⁷, pMIGII^5,8, pMXs from Cellbiolabs). The TCR α and β chain gene should be on the same vector under the control of the same promoter to ensure equal expression. If the TCR of interest is human, the human constant domains need to be replaced by mouse constant domains⁹. Our observation is that full length human TCRs do not stably express on mouse T-cells.
2. Prepare high quality plasmid DNA using Qiagen Maxi Prep Kit or similar product. The concentration of the plasmid should be at around 1 μg/μL.

2. Transfection and T-cell Isolation

Day -1 (Plate packaging cells)

1. Dislodge Platinum-E (Plat-E, Cellbiolabs) retroviral packaging cells with trypsin-EDTA and neutralize with DMEM media.
2. Centrifuge the cells at 1000 x g for 5 min. Aspirate the supernatant and resuspend the cell pellet in DMEM media.
3. Determine the cell number and dilute the cells at 0.6×10⁶/mL. Plate 10 mL of cell suspension in a 10mm poly-lysine coated tissue culture plate and grow overnight in a cell incubator at 37 °C, 5% CO₂.

Day 0 (Transfection)

4. The next morning, examine the cells under a light microscope. The cells should be approximately 80% confluent.
5. Gently remove the media from the plate. Wash the cells once with 1x PBS and add 10 mL pre-warmed, fresh DMEM media without Penicillin-Streptomycin (Pen/Strep).
   (Note: Pen/Strep can interfere with the transfection)
6. Prepare transfection complex.
   
   Prepare mix A and B as following:
   
   

   Mix A: Plasmid DNA	9 μg
   pCL-Eco helper plasmid	6.3 μg
   OptiMEM	1.5 mL
   Mix B: Lipopfectime 2000	60 μL
   OptiMEM	1.5 mL

   
   Incubate A and B separately for 5 minutes at room temperature
   
   Mix A and B together gently and incubate for 20 minutes at room temperature to form transfection complex.
7. Slowly drip the mixture (total 3 mL) into the Plat-E cells. Gently rock the plate back and forth to distribute the transfection mixture evenly.
8. Incubate cells at 37 °C/5% CO₂ in a cell incubator.
9. After 6-8 hours, replace medium with 10 mL of fresh DMEM medium (with Pen/Strep) for viral production.

Coat plate with antibodies

10. Mouse T-cells need to be activated before viral transduction. There are a variety ways to activate T-cells. Here we use plate bound anti-CD3e and anti-CD28 antibodies. Prepare an antibody mixture of 1 μg/mL of anti-CD3e and 2 μg/mL of anti-CD28 in sterile PBS.
11. Dispense 250 μL of the antibody mixture to each well of a 24-well tissue culture plate. The plate can be coated overnight at 4 °C or 2 hours at 37 °C.

Preparation of single-cell suspension from mouse spleen

12. Harvest mouse spleen and transfer to RPMI medium.
13. Place the spleen in a cell strainer. Mash the spleen with a syringe plunger into a 5 cm tissue culture plate. Rinse cells off the cell strainer with sterile PBS.
14. Centrifuge 1000 xg, 5 min.
15. Discard supernatant. Resuspend cell pellet in ACK lysing buffer (2 mL per spleen). Incubate 2 to 3 min at room temperature. Add RPMI medium up to 20 mL and centrifuge 1000 xg for 5 min.
16. Discard supernatant. Resuspend cell pellet in sterile PBS. Determine cell number and centrifuge 1000 xg for 5 min at 4 °C. Proceed to the isolation of T-cell.

Isolation and activation of mouse T-cells

17. Magnetically label the cells according to the product manual (CD8+ T-cell isolation kit from Miltenyi Biotec).
18. Place a LS column (Miltenyi Biotec) in the magnetic field. Apply labeled cell suspension onto the column. Collect flow-through (enriched mouse CD8+ T-cells). Wash the column three times with 3 mL buffer according to the product manual and combine with previous flow-through.
19. Stain the cells with anti-CD3e and anti-CD8a antibodies and analyze by flow cytometry (Figure 2a). For a typical separation, ~8-10% of total cells can be isolated. ~90% of the isolated cells are CD8+ T-cells.
20. Centrifuge the cells at 1000 xg, 5 min. Discard the supernatant. Resuspend the cell pellet in RPMI medium with recombinant human IL-2 (rhIL2, 20 ng/mL) at 1×10⁶ /mL.
21. Just before adding the cells, remove antibody solution from the plate (prepared previously in 2.11). Rinse each well with sterile PBS and remove PBS.
22. Add 1 mL of the cell suspension to each well. Put the plate at 37°C/5% CO₂ in a cell incubator.

3. (Day 2 and Day 3) Infection of Activated T-cells

1. After 2 days of virus production, the medium in the Plat-E cell plate should become yellow. Transfer viral supernatant to a 15 mL conical tube. Add 10 mL of fresh DMEM medium to the plate for further viral production (Optional).
2. Centrifuge virus supernatant at 1000 xg for 5 min to remove cells debris. Carefully transfer virus supernatant to a new tube. Leave some liquid at the bottom of the tube and do not disturb the cells debris.
3. Collect activated T-cells from the plate into a 50 mL conical tube. Determine the cell number. Save some cells into a separate tube to be used as negative (un-transduced) control. Centrifuge at 1000 xg for 5 min and discard supernatant.
4. Resuspend the cell pellet in virus supernatant at 10⁶ cells per 1 mL with 20 ng/mL rhIL2 and 10 μg/mL of protamine sulfate. Add 1 mL of cell suspension to each well of a 24 well plate. Resuspend the cells in the control tube in RPMI medium at the same cell density with the same amount of rhIL2 and protamine sulfate. Add the cells to the same plate.
5. Wrap the plate with plastic film. Centrifuge 90 minutes at 2000 xg, at 32 °C with no brake.
6. After the centrifugation, remove the plastic film. Add 1 mL of fresh RPMI medium with 20 ng/mL rhIL2 to each well. Put the plate back to the incubator.
7. (Optional) Higher expression level of TCR can be achieved by collecting the virus supernatant and repeating the infection procedure on day 3.

4. Expansion of Cells and Evaluation of Transduction Efficiency

1. Examine the transduced T-cells daily. Split the cells at 1:3 ratios when necessary in RPMI medium rhIL2. Do not let the cells overgrow (medium turns yellow).
2. At day 6 or day 7, stain the cells with antibody and MHC tetramer specific for the TCR to evaluate the expression of TCR on T-cell surface. Use the un-transduced T-cells as control (Figure 2c).
3. The transduced T-cells are ready for further downstream applications.

5. Representative Results

It is often advantageous to purify T-cell subsets before transduction although splenocytes can be transduced without purification. High purity T-cell subsets can be obtained using commercial magnetic beads (Figure 2a).

To evaluate the expression level of TCRs on T-cells, antibodies specific for TCR alpha or beta chains can be used. Typically 30% to 80% of the cells can express transduced TCR (Figure 2b) depending on the TCR genes and virus titers. MHC tetramer specific for the TCR can also be used to further verify functional expression of TCRs (Figure 2c).

Figure 1. Example of T-cell receptor gene construct sub-cloned into a retroviral vector. Full length alpha and beta chain genes are linked by a self-cleavable 2A peptide linker⁸.

Figure 2. Example of successful isolation and transduction of mouse T-cells. (a) CD8 T-cells were isolated from splenocytes using CD8a+ T Cell Isolation Kit (Miltenyi Biotec) and stained with anti-CD3e and anti-CD8a antibodies. Isolated CD8 T-cells were transduced with R6C12 TCR specific for human gp100:209 -217⁴ peptide and stained with anti-human Vbeta 8 antibody (b) and HLA-A2kb gp100 tetramer (c).