Detecting Fluorescent Protein Expression

Karmella Haynes 2014

REAGENTS:

• FACS Buffer - 1% FBS in 1x PBS (stored at 4°C)

MATERIALS

• FACS tubes with strainer caps - 6 mL capacity (EMS 64750-25)

PROTOCOL
This procedure is for two samples: one fluorescence-expressing experimental sample and one non-expressing "blank" control. Scale-up reagents as needed for more samples.

Harvest the cells - do the following in the TC room

1. Obtain an ice bucket. Aliquot 10 mL FACS buffer per sample (5 mL per sample) into a conical tube. Chill on ice.
2. Harvest ~2x10⁶ cells (~1-2 wells of adherent mammalian cells from a 6-well plate) per sample using the standard trypsinization procedure.
3. Collect the cells in growth medium and transfer to 15 mL conical tubes.
4. Pellet the cells at room temperature at 1000 rpm for 3 min.
5. Aspirate off the growth medium, but leave enough to cover the pellets. Flick each tube to break up the pellets. Chill the cells on ice.
6. Wash the cells 2x with cold FACS buffer: Add 1 mL cold FACS buffer to each sample. Pellet the cells at room temperature at 1000 rpm for 3 min. Aspirate off the buffer, leaving enough to cover the pellets. Flick each tube to break up the pellets. Repeat this process.

Bring the ice bucket with the cell samples and cold FACS buffer to your bench. The following steps do not need to be carried out under sterile conditions. However, if you do not have any 1xPBS at your bench, please go to the tissue culture room and make an aliquot in a 50 mL conical in the biosafety cabinet, then keep the 50 mL (labeled "non sterile 1xPBS") at your bench. Do not handle dedicated TC reagents outside of the TC room.

Flow cytometry (single tubes)

1. Power-on the flow cytometer and allow it to warm-up as needed.
2. Resuspend each cell sample (disrupted cell pellet) in 500 μL of cold FACS Buffer. Keep the samples on ice.
3. Label one empty FACS tube with strainer cap per sample and place them on ice.
4. Using a 1000 μL micropipette, force each 500 μL of cells through a separate, labeled, clean FACS tube strainer cap.
5. Fill an additional FACS tube with ~2 mL clean water.
6. Take the following (on ice) to the flow cytometer: (1) strained cell samples in labeled FACS tubes, (2) FACS tube with clean water, (3) left-over FACS buffer.
7. Following the manufacturer's software instructions, enter the appropriate settings per these basic, general guidelines:
   1. Total cell counts: 5,000 - 10,000 is recommended for mammalian cells. Note: For abundant cell samples, higher counts will be achieved in less time, and will use up very little volume of sample.
   2. Cell size scatter-plot: set up a live display window with forward-scatter and side-scatter on the x- and y-axis.
   3. Fluorescence signal histogram: set up a live display window with the appropriate fluorescence signal on the x-axis (e.g. mCherry/RFP) and cell counts on the y-axis. Set up one per fluorophore (e.g. one for mCherry/RFP and one for GFP if cells express either or both in your experiment)
   4. Advanced - Dual signal scatter plot: set up a live display window with one fluorescence signal on the x-axis and the other fluorescence signal on the y-axis.
8. Following the manufacturer's instructions, load the clean water tube. Run an analysis until no events appear in the gating displays to ensure that the flow stream is clear.
9. Load the "blank" control sample. Run an analysis.
   Note: If possible, while the sample is running, adjust the voltage/ signal detection sensitivity so that the peak of blank cells falls at 10² on the x-axis on the Fluorescence signal histogram. This will allow you to compare cells that are both positive and negative for fluorescence.
10. At this point, use the software to create threshold gates:
    1. Cell size scatter-plot: in this window, draw a polygon/ free-form gate around the cloud of dots ("events" or cells) that clusters near the diagonal slope. Exclude the outliers that fall near the x- or y-axis. See the figure below.
    2. Fluorescence signal histogram

Analyze on the flow cytometer. Keep the samples on ice until analysis.

1. Dilute the sample with additional cold FACS buffer if the reads per second exceed the maximum recommended limit.