Selecting the correct medium and serum in Animal Biotechnology

Selecting the medium and serum in animal Biotechnology

Most of the media described in our previous post- Serum – as a growth medium in animal tissue culture were developed to support particular cell lines or conditions. Many were developed with L929 mouse fibroblasts or HeLa cervical carcinoma cells, and Ham’s F12 was designed for Chinese hamster ovary (CHO) cells; all now have more general applications and have become classic formulations. Among them, data from suppliers would indicate that RPMI 1640, DMEM, and MEM are the most popular, making up about 75% of sales. Other formulations seldom account for more than 5% of the total; most constitute 2–3%, although blended DMEM/F12 comes closer, with over 4%. Eagle’s Minimal Essential Medium (MEM) was developed from Eagle’s Basal Medium (BME) by increasing the range and concentration of the constituents. For many years, Eagle’s MEM had the most general use of all media. Dulbecco’s modification of BME (DMEM) was developed for mouse fibroblasts for transformation and virus propagation studies. It has twice the amino acid concentrations of MEM, has four times the vitamin concentrations, and uses twice the HCO₃ −and CO₂ concentrations to achieve better buffering. α-MEM has additional amino acids and vitamins, as well as nucleosides and lipoic acid; it has been used for a wide range of cell types, including hematopoietic cells. Ham’s F12 was developed to clone CHO cells in low-serum medium; it is also used widely, particularly for clonogenic assays and primary culture. CMRL 1066, M199, and Waymouth’s media were all developed to grow L929 cells serum-free but have been used alone or in combination with other media, such as DMEM or F12, for a variety of more demanding conditions. RPMI1640 and Fischer’s media were developed for lymphoid cells—Fischer’s specifically for L5178Y lymphoma, which has a high folate requirement. RPMI 1640 in particular has quite widespread use, often for attached cells, despite being designed for suspension culture and lacking calcium. L15 medium was developed specifically to provide buffering in the absence of HCO₃ − and CO₂. It is often used as a transport and primary culture medium for this reason, but its value was diminished by the introduction of HEPES and the demonstration that HCO₃ − and CO₂ are often essential for optimal cell growth, regardless of the requirement for buffering.

Information regarding the selection of the appropriate medium for a given type of cell is usually available in the literature in articles on the origin of the cell line or the culture of similar cells. Information may also be obtained from the source of the cells. Cell banks, such as ATCC and ECACC, provide information on media used for currently available cell lines, and data sheets can be accessed from their websites. Failing this, the choice is made either empirically or by comparative testing of several media, as for selection of serum.

Many continuous cell lines (e.g., HeLa, L929, BHK21), primary cultures of human, rodent, and avian fibroblasts, and cell lines derived from them can be maintained on a relatively simple medium such as Eagle’s MEM, supplemented with calf serum. More complex media may be required when a specialized function is being expressed or when cells are sub-cultured at low seeding density (<1×10³ /mL), as in cloning. Frequently, the more demanding culture conditions that require complex media also require foetal bovine serum rather than calf or horse serum, unless the formulation specifically allows for the omission of serum.

If information is not available, a simple cell growth experiment with commercially available media and multiwell plates can be carried out in about two weeks. Assaying for clonal growth and measuring the expression of specialized functions may narrow the choice further [you may soon find the protocol for this cell growth experiment in our upcoming posts, or just mail us at BiotechExplorer@gmail.com].

Autoclavable media are available from commercial suppliers (you may search it on web). They are simple to prepare from powder and are suitable for many continuous cell strains. They may need to be supplemented with glutamine for most cells and usually require serum.

Note a simple trick: The cost of serum should be calculated on the basis of the volume of the medium when cell yield is not important, but if the objective is to produce large quantities of cells, one should calculate serum costs on a per-cell basis. Thus, if a culture grows to 1×10⁶ /mL in serum A and 2×10⁶ mL in serum B, serum B becomes the less expensive by a factor of two, given that product formation or some other specialized function is the same.

If foetal bovine serum seems essential, try mixing it with calf serum. This may allow you to reduce the concentration of the more expensive foetal serum. If you can, leave out serum altogether, or reduce the concentration, and use a serum-free formulation.

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Did you read these few relative topics ?

Development of media for animal tissue culture

Serum – as a growth medium in animal tissue culture

Complete Media - Animal tissue culture

Use of Antibiotics in Animal Tissue Culture for maintaining sterility

Balanced Salt Solution in Animal Tissue Culture

Animal Biotechnology - Tissue Culture and Cell Culture 

Maintenance of Sterility in Animal Tissue Culture Labs