HEK293
Proteins produced in this line are actually a closer match to in vivo human proteins. Scientists have also developed the HKB11 cell line (hybrid between HEK293S cell line and human B cell line) which is easy to transfect and secretes very large quantities of protein.
Methods of delivery
Transient transfection
Plasmid DNA is expressed using reagent. There is no need for clonal selection because the gene/s are not incorporated into the genome of the host. Downside is large quantities of plasmid are required for effective delivery.
Stable transfection
Gene of interest is expressed using editing technology such as CRISPR. Requires a clonal selection step.
Recombinase mediated cassette exchange
Procedure in which a preexisting gene cassette is exchanged for an analogous cassette carrying the gene of interested. For protein production, the recombinant target is directed to a genomic “hotspot” to increase yield.
Viral delivery
Allows for delivery of nucleic acid at large volume, produces high yield of secreted protein without the need for clonal selection.
Clonal selection
Methotrexate (MTX)
Inhibits dihydrofolate reductase (DHFR). Used in combination with DHFR deficient lines in which the DHFR clonal selection gene is supplied in the expression cassette containing the gene of interest.
Glutamine Synthetase (GS)
Methionine sulfoximine (MSX) inhibits GS. Used in combination with GS-deficient cell lines in which the GS clonal selection gene is supplied in the expression cassette containing the gene of interest.
Benefit to this approach: The drug concentration can be increased to “fine tune” and generate the strongest cell clones that produce the most protein.
Expansion methods
Batch
All nutrients are supplied in the initial base medium
Fed-batch
Nutrients are added as they are depleted
Perfusion
Medium is circulated through a growing culture, while waste is removed, additional nutrients are supplied, and the product is harvested.
Written by Angela
Scientific Support Specialist
