Isolation and growth of mouse primary myoblasts Isolation of limb muscle from neonatal mice  China best Mortuary Cart, with cover or not, with lift or not, and we can do one-stop supply of Mortuary Equipment, save your time, save your money, as corpse refrigerator, dissection table, washing station, washing tank, lifting cart, corpse cart, coffin cart, dissection equipment, corpse Incinerator, etc. Mortuary Cart Mortuary Cart,Mortuary Trolley,Mortuary Trolley Equipment,Stainless Steel Funeral Trolley Guangzhou MeCan Medical Limited , https://www.medical-waste-incinerator.com
1. Neonatal mice by decapitation or CO 2 inhalation.
2. Rinse the limbs with 70% ethanol and remove them with sterile scissors. Dissect the muscle away from the skin and bone with sterile forceps.
The section of sterile PBS as successive limbs are being processed, maintaining sterility in the accumulated tissue.
Dissociation of muscle cells
3. Add enough PBS to keep the tissue moist, and mince to a slurry with razor blades in the culture dish.
Do this and all subsequent steps in a sterile tissue culture hood.
4. Add approximately 2 ml of primary cell isolating solution per gram of tissue and continue mincing for several minutes.
For the amount of tissue obtained from 1-5 neonatal pups, 0.5 ml of the enzyme solution is usually sufficient.
5. Transfer the minced tissue to a sterile tube and incubate at 37°C until the mixture is a fine slurry, usually about 20 min. Several times during the incubation, gently triturate with a plastic pipette to break up clumps.
6. If desired, the slurry can be filtered through a piece of 80 μm nylon mesh in a sterile funnel to remove large pieces of tissue.
7. Centrifuge the cells for 5 min at 350 x g. Resuspend the pellet in 2-4 ml of primary myoblast growth medium depending on the amount of tissue processed, and plate in a 35-60 mm collagen coated culture dish.
It is common to see a great deal of debris and very few recognizable cells; however, after two days, many cells will be evident and the debris will be rinsed away during the first change of medium.
Supplement for myoblasts
8. Incubate in a 37°C 5% CO 2 incubator and change the medium every 2 days, using primary myoblast growth medium. Do not leave cells in the same culture dish for more than 5 days, regardless of cell density.
Primary myoblasts grow best when dense. Do not grow them at less than approximately 10% confluence, but also do not allow them to become too crowded, or else they may start to differentiate or die. Split them at no more than 1:5 dilution The primary myoblast growth medium gives myoblasts a growth advantage over fibroblasts.
9. When the cells are ready to be split, remove the cells from the dish using PBS with no trypsin or EDTA. This is accomplished by aspirating off the growth medium, rinsing the dish with PBS, leaving a small amount of PBS in the dish , and hitting the dish very firm in a sideways fashion against the edge of a table top to dislodge the cells.
It can take several minutes of incubation in the PBS before the cells can be knocked off of the tissue culture plastic. However, the myoblasts will freely come off during this treatment and many fibroblasts will be left behind.
10. Preplate the cells for 15 min on a collagen coated dish before moving the cells remaining in suspension to a new collagen coated dish.
This tends to leave behind cells that stick quickly, which are predominantly fibroblasts. To avoid leaving myoblasts behind, swirl the liquid in the dish, tilt it towards the pipette, and jostle the dish from side to side while sunset removing the cell suspension. To do this can result in a significant number of myoblasts trapped in the meniscus.
11. Repeat steps 9 and 10 for the initial week of culture expansion or until most of the fibroblasts are gone from the culture.
Fibroblasts tend to be very flat when grown on collagen, whereas myoblasts are more compact and much smaller in diameter. Myoblasts can also be identified by immunofluorescent staining for desmin.
12. After the fibroblasts are no longer visible in the culture, the medium can be changed to primary myoblast growth medium.
This medium allows myoblasts to grow faster and to higher densities. However, it also removes the selective growth advantage of myoblasts over fibroblasts, and thus should not be used until after the fibroblasts are gone. This medium can be changed every three days instead of every Two, but care should still be taken to avoid overgrowth of cells. Primary myoblasts can be frozen for storage using standard cell culture protocols.
After a week of growth, the myoblasts usually go through a crisis period during which a significant fraction of the population (sometimes the majority) dies. This tends to occur at the time that the fibroblasts have disappeared from the culture, although a direct correlation The remaining myoblasts soon repopulate and have a remarkable proliferative ability (up to 100 doublings) but still retain the ability to differentiate under the proper conditions.
Differentiate in culture
13. If desired, the potential of the myoblasts to differentiate in culture can be assessed by replacing the medium with fusion medium.
Within several days to one week, large multinucleated myotubes should be quite obvious. After approximately one week in fusion medium, the myotubes can sometimes be observed to Twitch randomly as the contractile machinery assembles.
Reference
Springer, ML, T. Rando, and HM Blau (1997). "Gene delivery to muscle." In Current Protocols in Human Genetics. Unit 13.4, AL Boyle, ed. John Wiley & Sons, New York.