Cell freezing and resuscitation experiments
Cell freezing and resuscitation experiments
Summary
Cell freezing and resuscitation can be
(1) used for biological preservation
(2) used for stem cell research in medicine, and
(3) used for passaging culture.
Operation method
Cell freezing and resuscitation
Principle
The basic principle of cell freezing and resuscitation is slow freezing and fast thawing, and experiments have proved that this can maximize the preservation of cell viability. At present, cell freezing and storage of glycerol or dimethyl sulfoxide as a protective agent, these two substances can improve the permeability of the cell membrane to water, coupled with slow freezing can make the water inside the cell to seep out of the cell, reducing the formation of intracellular ice crystals, thereby reducing the formation of ice crystals due to cell damage. Resuscitation of cells should be used to thaw quickly, so as to ensure that the extracellular crystals in a very short period of time that is melted, to avoid slow melting so that the water seeped into the cells to form intracellular recrystallization of cell damage.
Materials and Instruments
Cells
D-Hanks solution Calf serum Culture medium Penicillin Streptomycin Trypsin HCl NaHCO3 DMSO Glycerin
Micro Dosing Guns Pipette Tips Tubes Freezing Tubes Gun Heads Gum Plugs Pipette Glass Bottles Red Blood Cell Counting Plates Markers Medical Eraser Pipette Guns Ultra-clean Benches Centrifuges Constant Temperature Baths Refrigerators Refrigerators Inverted Phase Comparison Microscopes Culture Boxes Liquid Nitrogen Refrigerators
Move
I. Preparation of materials
1. Instruments: purification bench, centrifuge, constant temperature water bath, refrigerator (4℃, -20℃, -70℃), inverted phase contrast microscope, incubator, liquid nitrogen refrigerator.
2. Glassware: Pipettes (elbow, straight), culture flasks, glass bottles (250 ml, 100 ml), waste tanks.
3. Plasticware: pipette tips, gun tips, rubber stoppers, pipettes (10 ml), 15 ml centrifuge tubes, freezing tubes (1-2 ml).
4. Other items: micro-volume spiking guns, red blood cell counting plates, marking pens, medical ointment, pipette guns.
5. Reagents: D-Hanks solution, calf serum, culture medium, double antibiotic (penicillin, streptomycin), trypsin (0.08%), 1NHCl, 7.4% NaHCO3, DMSO (analytically pure) or colorless fresh glycerol.
II. Cell freezing
1. Prepare a frozen culture solution containing 10% DMSO or glycerol and 10-20% calf serum.
2. Take cells in the logarithmic growth phase and trypsinize the monolayer growth cells to digest them, while the suspension growth cells are directly transferred to a 15 ml centrifuge tube.
3. Centrifuge at 1,000 rpm for 5 min.
4. Remove trypsin and old culture medium, add appropriate amount of prepared frozen culture medium, gently blow with a pipette to make the cells homogeneous, count and adjust the final density of cells in the frozen culture medium to 5×106/ml~1×107/ml.
5. Dispense cells into freezing tubes of 1 to 1.5 ml each.
6. Label the cryopreservation tubes with the name of the cells, the time of freezing and the operator.
7. Freezing: The standard freezing procedure is a cooling rate of -1 to -2°C/min; when the temperature reaches below -25°C, it can be increased to -5°C to -10°C/min; and when it reaches -100°C, it can be rapidly immersed in liquid nitrogen. The cryopreservation tube with cells can also be put into the -20℃ refrigerator for 2 h, and then put into the -70℃ refrigerator overnight, take out the cryopreservation tube and move it into the liquid nitrogen container.
III. Cell recovery
1. Remove the cryotubes from the liquid nitrogen container and immerse them directly in warm water at 37°C, shaking them from time to time so that they thaw as quickly as possible.
2. Remove the cryotube from the 37°C water bath, open the lid, aspirate the cell suspension with a pipette, add to the centrifuge tube and add 10 times more culture solution dropwise and mix well.
3. Centrifuge, 1 000 rpm, 5 min.
4. Discard the supernatant, add 10% calf serum culture medium to resuspend the cells, count, adjust the cell density, inoculate the culture flask and incubate at 37℃.
5. Replace the culture medium once on the following day and continue the incubation.
Caveat
1. Cultured cells from the proliferative phase until the formation of a dense monolayer can be used for freezing, but logarithmic growth phase cells are preferred. It is advisable to change the culture medium once a day before freezing.
2. Protect cryopreservation tubes from frostbite when placing them in or removing them from liquid nitrogen containers.
3. It is best to use freshly prepared culture medium for freezing and resuscitation.
Common Problems
I. Principles of freezing and resuscitation: slow freezing and fast thawing
When cells are chilled below freezing, the following changes can occur: dehydration of organelles, increased concentration of soluble substances in the cell, and formation of ice crystals within the cell.
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