An In Vitro Technique for UV Irradiation-Mediated Generation of Apoptotic T Cells

Published: November 30, 2023

Abstract

Source: Hodge, M. X., et al. In Vivo Assessment of Alveolar Macrophage Efferocytosis Following Ozone Exposure. J. Vis. Exp. (2019).

This video demonstrates a method to induce apoptosis in the Jurkat cells — a human T lymphocyte leukemia cell line. The cells are exposed to ultraviolet C (UVC) radiation, which causes extensive DNA damage and leads to apoptotic cell death.

Protocol

1. Preparation of Jurkat T cell line (Day 2)

NOTE: All procedures should be conducted in a class II biological safety cabinet.

  1. Culture Jurkat T cells in 24 mL of basal cell culture medium + 10% FBS + 5% penicillin/streptomycin at 37 °C + 5% CO2 (Table of Material). Jurkat T cells are a suspension cell line that can be maintained through passaging 1:6-1:8 into pre-warmed culturing media every 3 days. Do not shake.
  2. To prepare apoptotic cells, grow them to 90% confluency in each flask (which takes 3-4 days to achieve after passaging). For this study, use cells from five T75 flasks to obtain a sufficient number of cells used in this protocol.
    NOTE: A confluent flask contains about 20-24 million cells.
  3. Pipette up cells (which is the entire flask) from each flask (approximately 24 mL) and transfer cells to a sterile 50 mL conical tube using a serological pipette. Use multiple conical tubes for multiple flasks.
  4. Count cells by removing an 11 µL aliquot of cells from the 50 mL conical tube and mix with 11 µL of trypan blue stain and pipette 11 µL onto hemocytometer slides.
  5. Insert the slide into an automated cell counter and record the number of live cells to calculate the total cell count in each flask by multiplying the number of live cells by 24, as each flask contains 24 mL of media.
  6. Centrifuge the cell suspension at 271 x g for 5 min at room temperature (RT) to pellet cells.
  7. Discard the supernatant by aspiration and resuspend the cell pellet in media to obtain 3.0 x 106 cells per mL.
  8. Aliquot 5 mL of cells in 100 mm x 20 mm tissue culture dishes (approximately nine dishes will be used; the total amount of cells in each dish should be ~15 x 106).
  9. Use one dish for control/unexposed, and the remaining dishes will be exposed to UV.
  10. Set the UV crosslinker to the correct energy level, press the energy button, and enter "600" using the number pad, which the machine will read as 600 µJ/cm2 x 100.
    NOTE: UV crosslinker energy units are in µJ/cm2 x 100; therefore, to achieve 60 millijoules/cm2, convert units to match the UV crosslinker.
  11. Irradiate all dishes with cells, not including the control, at 60 millijoules (mJ)/cm2 using the UV crosslinker. Remove the top cover of the tissue culture dishes during UV exposure, as UV light will not penetrate the plastic cover.
  12. Incubate all the dishes in a cell culture incubator, including unexposed control, at 37 °C at 5% CO2 for 4 h.
  13. Confirm apoptosis by flow cytometry using an apoptosis assay detection kit containing annexin V and propidium iodide (PI) (markers for apoptosis and necrosis, respectively) after 4 h of incubation, per the manufacturer's instructions.
    NOTE: Irradiating Jurkat T cells in the UV crosslinker at an energy level of 600 µJ/cm2, following a 4 h incubation will lead to ≥75% of apoptotic (both early and late) cells having more early apoptotic phenotype than the late apoptotic phenotype. This makes it easier for alveolar macrophages to recognize them and engulf them as their membranes are uncompromised, unlike late apoptotic cells, leading to a higher efferocytic index and more accurate imaging of alveolar macrophage efferocytosis in this study.
    1. Pool 333 µL (1 x 106 cells) of Jurkat T cells from several dishes (both "no UV" and "UV-exposed") together to use for compensation analysis tubes.
    2. Aliquot 333 µL of Jurkat T cells in an unstained, annexin V single stain, PI single stain, no UV control, and 600 µJ/cm2 UV-exposed labeled flow cytometry tubes.
    3. Centrifuge tubes at 188 x g for 5 min at RT and decant the supernatant.
    4. Wash cells by resuspending in 500 µL of cold, 1x phosphate-buffered saline (PBS).
    5. Centrifuge and pellet cells at 188 x g for 5 min at RT. Discard the supernatant after centrifugation.
    6. Prepare 400 µL of 1x binding buffer per flow tube by diluting 10x binding buffer with distilled water while cells are centrifuging.
    7. Prepare annexin V and PI incubation reagent (100 µL per sample/tube) per the manufacturer's instructions.
    8. Decant the supernatant after centrifugation and gently resuspend all tubes in 400 µL of 1x binding buffer, then add 100 µL of annexin V incubation reagent to each sample tube. Lastly, add 100 µL of annexin V single stain and PI single stain to their respective tubes, but do not add anything beyond the 1x binding buffer to the unstained tube.
    9. Incubate tubes in the dark for 15 min at RT.
    10. Centrifuge all cells at 188 x g for 5 min at RT and decant supernatant.
    11. Resuspend cells in 400 µL of 1x binding buffer, then analyze samples for apoptosis by flow cytometry. Collect at least 10,000 events per tube to allow accurate representation of staining.
  14. Combine all the irradiated cells from dishes into a 50 mL conical tube and pellet cells by centrifugation at 271 x g for 5 min at RT.
  15. Discard the supernatant from the tube by aspiration and resuspend cells in 24 mL of sterile phosphate-buffered saline (PBS) and pellet cells by centrifugation at 271 x g for 5 min at room temperature.
  16. Discard the supernatant from the tube by aspiration and resuspend cells in the amount of PBS used for dosing mice approved by IACUC. The dose used is between 5-10 x 106 cells/50 µL per mouse; therefore, for 10 mice, resuspend in 500 µL (the number of cells in each dose varies depending on how many cells are cultured for irradiation).
    NOTE: Make at least two additional doses to account for any liquid that may stick to the sides of the pipette tip resulting in the loss of cells.

Divulgazioni

The authors have nothing to disclose.

Materials

Annexin V-FITC Kit Trevigen 4830-250-K The TACS Annexin V-FITC Kit allows rapid, specific, and quantitative identification of apoptosis in individual cells when using flow cytometry.
BCL2 Jurkat T Cells ATCC ATCC CRL-2899 The BCL2 Jurkat cell line was derived by transfecting human Jurkat T cells with the pSFFV-neo mammalian expression vector containing the human BCL-2 ORF insert and a neomycin-resistant gene. Has been for models of measuring efferocytosis.
Countess II Automated Cell Counter Thermofisher AMQAX1000 It is a benchtop assay platform equipped with state-of-the-art optics, full autofocus, and image analysis software for rapid assessment of cells in suspension. Very easy to use.
Cytospin 4 Cytocentrifuge Thermofisher A78300003 Provides economical thin-layer preparations from any liquid matrix, especially hypocellular fluids such as bronchoalveolar lavage fluid.
Fetal Bovine Serum, qualified, heat inactivated Thermofisher 16140071 Provides Nutrients to cultured cells for them to grow. It is standard for cell culture.
Penicillin-Streptomycin Sigma/Aldrich P0781-100ML Penicillin-Streptomycin is the most commonly used antibiotic solution for culture of mammalian cells. Additionally it is used to maintain sterile conditions during cell culture.
RPMI 1640 Medium, GlutaMAX Supplement Thermofisher 61870036 RPMI 1640 Medium (Roswell Park Memorial Institute 1640 Medium) was originally developed to culture human leukemic cells in suspension and as a monolayer. RPMI 1640 medium has since been found suitable for a variety of mammalian cells, including HeLa, Jurkat, MCF-7, PC12, PBMC, astrocytes, and carcinomas. Helps grow Jurkat T cells fast and efficiently.
Stratagene UV Stratalinker 1800 UV Crosslinker Cambridge Scientific 16659 The Stratalinker UV crosslinker is designed to induce apoptosis, crosslink DNA or RNA to nylon, nitrocellulose, or nylon-reinforced nitrocellulose membranes.

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Citazione di questo articolo
An In Vitro Technique for UV Irradiation-Mediated Generation of Apoptotic T Cells. J. Vis. Exp. (Pending Publication), e21838, doi: (2023).

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