Isolation und<em> Ex Vivo</em> Kultur des Vδ1⁺ CD4⁺ γδ T-Zellen, eine extrathymic αβT-Zell-Vorläufer

The overall goal of this experimental procedure is to quantitatively isolate and obtain a highly purified population of the scarce CD four positive V delta one gamma delta T cell entity, which has been shown for alpha beta T-cell progenitors. This method can help answer key questions in the field of extra thymic T-cell development about what initiates drives and modulates the induction of adaptive immune responses. The main advantage of this technique is that it facilitates the rapid and efficient enrichment of a scar cell entity while maintaining the functionality viability and sterility of the cells.

To isolate the PBMC begin by diluting 50 to 100 milliliters of a freshly obtained human blood sample to a one to two ratio with PBS. Next carefully layer 35 milliliters of the diluted blood onto 15 milliliters of cell separation gradient in a 50 milliliter conical tube and separate the cells by centrifugation. After collecting the lymphocyte layer, wash the cells in PBS and resuspend the lymphocytic pellet in one to five milliliters of a hypotonic buffer solution to lyse the remaining erythrocytes.

Stop the lysis after two to four minutes By adding 10 times the volume of PBS then pellet the cells and wash them in 10 milliliters of fresh PBS before beginning the V delta one T cell isolation. Use a one times 10 to the sixth aliquot of the PBMC to assess the frequency of V delta one, CD four positive T cells in the donor sample by flow cytometry. Then spin down the rest of the lymphocytes and resuspend the pellet in 60 microliters of max buffer per one times 10 to the seventh cells.

Next block the cells in 20 microliters of FC blocking reagent per one times 10 to the seventh cells, followed by the addition of 10 microliters of ZI conjugated anti-human V delta one antibody per one times 10 of the seventh cells per 12 minutes at four degrees Celsius in the dark. At the end of the incubation, wash the cells in 14 milliliters of max buffer. Re suspend the pellet in 80 microliters of max buffer per one times 10 to the seven cells, and add 20 microliters of anti FTSE microbeads per one times 10 of the seventh cells with mixing after 15 minutes in the dark at four degrees Celsius.

Wash the cells in 10 milliliters of fresh max buffer during the centrifugation. Equilibrate a pre cooled magnetic column with 500 microliters of max buffer. Then resuspend the cells in 500 microliters of max buffer and add them carefully to the top of the column.

Rinse the column with three 500 microliter max buffer washes. Then remove the column from the magnet and use a plunger to quickly flush the V delta one positive cells with one milliliter of max buffer into a 15 milliliter conical.Two. After running the cells through a second column, vortex 25 microliters of CD four beads for 30 seconds.

Then transfer the beads into a 1.5 milliliter reaction tube containing one milliliter of max buffer and place the tube on a magnet. After one minute, use a 200 microliter pipette to carefully aspirate the supernatant and resuspend the beads in 25 microliters of max buffer. Next, spin down the isolated v delta one positive cells and resuspend the pellet in 500 microliters of max buffer.

Mix the cells vigorously with the beads. Then after 20 minutes at four degrees Celsius with constant tilting, place the tube back onto the magnet. To avoid losing any sample volume and to minimize the presence of contaminating CD four negative cells, it is essential to pipe it any remaining buffer from the inside of the lid back into the vial.

After two minutes, use a 200 microliter pipette to transfer the CD four negative V delta one positive cell containing supernatant into a fresh tube. Then remove the CD four positive cells from the magnet and resus suspend them in 500 microliters of max buffer after removing the CD four negative cells two more times as just demonstrated, incubate the CD four positive cells in 100 microliters of culture medium and 10 microliters of bead detaching solution at room temperature for 45 minutes with constant tilting. At the end of the incubation, return the cells to the magnet for one minute and use a 200 microliter pipette to transfer the bead free.

V delta one positive CD four positive cell contain supernatant into a new tube after removing any remaining beads. Two more times as just demonstrated, spin down the cells then resuspend the V delta one positive CD four positive cells in fresh prewarm medium for counting to single cell. Clone the cells by limited dilution, isolate PBMC from a different donor as just demonstrated.

Then gamma irradiate 2.5 times 10 of the seventh of these allogeneic PBMC with 80 grays in 25 milliliters of culture media. Next, add IL two IL seven, and PHA to the irradiated feeder cells and seed five times 10 to the fourth cells per 50 microliters of medium per well into 96. Well U form plates dilute the isolated V delta one positive CD four positive cells to a concentration of 0.3 cells per 50 microliters and dispense 50 microliters of cells to each well of feeder cells and cytokines.

Then place the plates in a 37 degrees Celsius 5%CO2 humidified atmosphere, exchanging half of the medium in each well of the co cultures with 50 microliters of fresh cytokines and medium every three to four days. The first clones will become visible within three to four weeks with the culture medium color changing as the cells metabolize and form colonies here a typical distribution of v delta one positive cells in a CD three positive peripheral blood lymphocyte sample is shown in this donor. The frequency of v delta one positive cells is 2.3%of the total lymphocyte count, 2.6%of which are CD four positive with the target population for isolation representing 0.06%of total lymphocytes.

It is important to note as can be observed in this dot plot from a typical isolation experiment that no alpha beta T cells remain in the enriched T cell pool after the first positive isolation step for the enrichment of V delta one positive cells. Here, the typical phenotype of an emerging CD three positive CD four positive clone expressing a T-cell receptor composed of a V delta one and a V gamma nine chain is presented in these density plots of a single clone isolated by this technique. The trans differentiation process during which the V delta one chain is downregulated and an alpha beta T-cell receptor is upregulated, is shown a process which results in a transient double positive T-cell receptor phenotype for the clone.

A CD four positive CD eight positive double positive phenotype also may be exhibited by some clones. Once mastered, this technique can be completed in five hours if it is performed properly. While attempting this procedure, it is important to remember to work quickly without stopping and to use sterile reagents, cold buffers, and isolation kits not past the date of expiration following this procedure.

Other rare cell types can be targeted such as stem cells or subtypes of T NK or INKT cell compartments. This technique paved the way for researchers in the field of immunology to explore the molecular triggers and drivers of the extra thymic developmental pathway of this newly identified human alphabet T-cell progenator. In, in vitro model systems, you should now have a good understanding of how to isolate scar cell entities from human cell sources like bone marrow cord, and peripheral blood as situ or synovial fluid quickly and quantitatively while maintaining the cells functional and sterile.