MitoProbe™ DiIC1(5) Mitochondrial Membrane Potential Protocol

实验概要

Cationic cyanine  dyes have been shown to accumulate in cells in response to membrane  potentialand membrane potential changes have been studied in association  with apoptosis. The MitoProbe™ DiIC1(5) Assay Kit provides solutions of  the cyanine dye DiIC1(5) (1,1′,3,3,3′,3′-hexamethylindodicarbo -  cyanine iodide, Figure 1) and CCCP (carbonyl cyanide 3-  chlorophenylhydrazone), for the study of mitochondrial membrane  potential. DiIC1(5) penetrates the cytosol of eukaryotic cells. At  concentrations below 100 nM, the dye accumulates primarily in  mitochondria with active membrane potentials. DiIC1(5) stain intensity  decreases when cells are treated with reagents that disrupt  mitochondrial membrane potential, such as CCCP (Figure 2).

实验材料

Kit Contents

• DiIC1(5), 625 μL of 10 μM DiIC1(5) in DMSO

• CCCP, 125 μL of 50 mM CCCP in DMSO

Storage and Handling

Upon receipt, components should be stored at 2–6°C. DO NOT FREEZE.  Before opening, each vial must be at room temperature. When stored  properly, both the DiIC1(5) and CCCP solutions should be stable for at  least twelve months.

Spectral Characteristics

The approximate excitation and emission peaks of DiIC1(5) are 638 nm  and 658 nm, respectively. Cells labeled with DiIC1(5) can be analyzed  by flow cytometry using 633 nm excitation and far red emission, and by  fluorescence microscopy using standard filters for Alexa Fluor® 633 dye.

实验步骤

The following  protocol describes introducing DiIC1(5) reagent into the cultured cells  and analyzing the stained cells by flow cytometry. Suggested initial  conditions may require modifications because of differences in cell  types and culture conditions. The concentration of probe for optimal  staining will vary depending upon the application. A concentration range  should be tested starting around 50 nM DiIC1(5). CCCP controls should  be used to confirm that the DiIC1(5) response is sensitive to changes in  membrane potential.

1. Labeling Cells with DiIC1(5)

Before beginning the experiment, ensure that the vials of DiIC1(5) and CCCP have equilibrated to room temperature.

1)      For each sample, suspend cells in 1 mL warm medium, phosphate-buffered saline, or other buffer at approximately 1 x 10⁶ cells/mL.

2)       For the control tube, add 1 μL of 50 mM CCCP (supplied with the kit, 50  μM final concentration) and incubate the cells at 37°C for 5  minutes.Note: CCCP can be added simultaneously with DiIC1(5). Titration  of the CCCP may be required for optimal results with each cell type.

3)      Add 5 μL of 10 μM DiIC1(5) (supplied with the kit, 50 nM final concentration) and incubate the cells at 37°C, 5% CO₂,  for 15 to 30 minutes. If performing additional labeling, for example  with an annexin V conjugate, follow the protocol below, beginning with  step 1. If no additional staining is to be performed, proceed with step  4.

4)      OPTIONAL: Wash cells once by adding 2 mL of warm phosphate-buffered saline (PBS) or other buffer to each tube of cells.

5)      Pellet the cells by centrifugation.

6)      Resuspend by gently flicking the tubes. Add 500 μL PBS (or other suitable buffer) to each tube.

7)       Analyze on a flow cytometer with 633 nm excitation using emission  filters appropriate for Alexa Fluor® 633 dye (Figure 2). Gate on the  cells, excluding debris. Using the CCCP-treated sample, perform standard  compensation.

2. Additional Labeling with an Annexin V Conjugate and Propidium Iodide

It  is possible to label the DiIC1(5)-stained cells with other markers for  apoptosis or viability, as long as the fluorescence emission of the  additional label is spectrally resolved from DiOC1(5). The example below  is a protocol for labeling with an annexin V–Alexa Fluor® 488 conjugate  and propidium iodide.

1)       After step 3 (above), wash cells once by adding 2 mL of warm  phosphate-buffered saline or other buffer to each tube of cells.

2)       Pellet the DiIC1(5)-stained cells and resuspend in 100 μL of 1X annexin  binding buffer (10 mM HEPES, 140 mM NaCl, and 2.5 mM CaCl₂, pH 7.4).

3)      Add 5 μL annexin V conjugate (e.g. annexin V–Alexa Fluor® 488 conjugate, V13241).
 Note: 5 μL is appropriate for annexin V conjugates from Molecular  Probes. Conjugates purchased from other suppliers may require a  different volume to be effective.

4)      Add 1 μL of a 100 μg/mL propidium iodide solution (V13241, prepared according to instructions accompanying that kit).

5)      Incubate the samples at 37°C for 15 minutes. (37°C is important to maintain membrane potential.)

6)      Add 400 μL annexin binding buffer.

7)       Analyze on a flow cytometer with 488 nm and 633 nm excitation using  emission filters appropriate for Alexa Fluor® 488, R-phycoerythrin, and  Alexa Fluor® 633 dye (Figure 3).

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