AGiR! for genomic integrity/cometassaydev

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This is the default page for the concrete aspects of the cheek cell comet assay protocol.
For the 2018 progress about genomic integrity, see Genomic Integrity 2018 and for the DIY Comet Cell Assay see Comet Cell Assay 2018.

Illustration of a "comet", the migration of the DNA after an electrophoresis


Conditions for Comet Cell Assays

  • tests of pbs vs saline
  • tests for optimal numbers of cells
  • tests of filtration vs gravity for eliminating big clumps of cells (1st attempt with lab 40micron filter run 8march2017, with Anna and Bastien)
  • tests for staining dyes
  • control conditions - negative control with no protease treatment, positive control with H2O2
  • tests of non-lab 'kitchen sink' components for reactions (dish soap, contact lens cleaner, etc...)
  • tests of lab water vs bidistilled water

Current 'best' protocol

1) isolate cells in saline solution (0.9% NaCl in water) after gentle toothbrush collection from inner cheek (rinse mouth with fresh water before 'harvest')
- about 10ml solution
Let biggest clumps settle away, and take remaining solution to pellet most cells (2ml eppi tube, 2k rpm, 2min), repeating until all solution is pelleted.
Resuspend pellets in about 200 microliters of fresh saline and estimate cell concentration and quality under scope (can use hemocytometer for counting)

3) embed cells in 1% low melting point agarose (made up in standard saline solution) aiming for about 20,000 cells to be added to 100 microliters molten agarose (kept at 42oC)
mix and put on clean microscope slide using a clean coverslip to flatten it in place. (can flatten the cell suspension on top of a pre-made agarose base, if desired, see below)

4) treat cell patches with first solutions: saline only, for test cases (3-5 replicates ideally); and H2O2 (0.01%) for positive control case. After 5min pre-treatment, wash twice with saline solution

5) equilibrate all cell patches with Proteinase K (PK) buffer
Final Concentrations:
2.5M NaCl
10mM Tris (pH 8)
1% Triton x100

(for 2ml: 40 microliters 0.5M Tris pH8, 400 microliters 0.5M EDTA, 1ml 5M NaCl, 200 microliters 10% Triton, 0.36ml H2O)
x2 changes (drops of liquid, about 20-50 microliters depending on patch sizes)

6) treat cells with PK+ solution (final PK concentration at 0.5mg/ml: 5 microliters of 20mg/ml PK stock in 200 microliters PK buffer)
keep at least one cell patch without this treatment as your negative control!
RT incubation (watch under scope to see cells 'disappearing' leaving nucleoids - usually only about 20 minutes max)
Both Detergent and PK are essential for this to occur without induction of apoptosis, which would ruin any hope for successful observation of comets.

7) as treatment seems sufficient, apply 1X TBE pH9 (alkaline treatment) to cell patches
2x 5 min

8) equilibrate all patches with normal 1X TBE
3x 2 min

9) run the electrophoresis step: 12V 15 min (only 2 slides will fit easily in the gel box currently used in the lab, but other possibilities exist)

10) staining and imaging (most success with SYBR safe dye, diluted 1/10,000 in TBE for staining) and epifluor imaging ('green' channel)

Ideas for protocol improvement

For running the comet assay, leaving the treatment overnight (PK buffer etc) has given very good results (in particular with Violaine, Vithoo and Jennifer in the summer of 2018). They also showed clearly that the lab water used is also very important. Just using distilled water from the shop has the potential to really increase apoptosis in the agarose patches, leading to 'no comet' results.
Additionally, so the patches stay flat during the run, it is a good idea to place the patches between 2 slides, as also successfully demonstrated in the summer of 2018.
While we had tried to assess alternatives that would form a nicely colored DNA 'comet tail' for easier DIY image acquisition/analyses, but neither Hemalum after a MeOH:acetic acid (3:1) fix nor methylene blue aqueous seem very useful at all in this regard... Some tests with methylene blue and iodine have been a bit promising, but further tests were generally not encouraging. New ideas are very welcome!

In the meantime, DIYmicroscopes that can use a blue LED excitation light are being worked upon, too!! The OpenFlexure system for epifluor may just do the trick, we hope.

If you have trouble removing the coverslip from the patch of embedded cells without messing it up, you can add buffer first, or lose patches during manipulations, you can make an initial patch on the slide before adding the cell suspension in agarose.
Use two slides covered with tape and 2 more slides, as in Monica Driscoll's old WormBook method. (of course, instead of worms in solution, put your embedded cheek cells in molten agarose on top of pre-made patch, then flatten with coverslip as above.

One patch can be cut into sections, for quick tests in different conditions, for example: middle untreated, one side for test, other side for positive control.

Ideas for 'Comet Chip' development as an 'automated' system

The idea is to make an open-source microfluidic device or something inspired by microfluidics. The chip should be easy to make and to use. All the comet cell treatments should be carried out on the chip, thus contain electrodes, etc... The dream configuration would allow micronuclei assays to be done first, and comets later on the same embedded cells.

More to come soon!!
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