The present invention relates to oligopeptide-free cell culture media comprising at least 0.5 mg/L of a polyamine and to methods for cultivating cells in said oligopeptide-free cell culture media comprising at least 0.5 mg/L of a polyamine. The invention also relates to methods for expressing at least one protein in a medium comprising at least 0.5 mg/L of a polyamine and to methods for producing at least one virus in a medium comprising at least 0.5 mg/L of a polyamine.

Cell culture media, concentrated media and feeds, methods of manufacturing cell culture media and feeds, and methods of culturing cells are provided. One or more small peptides, including dipeptides are added to the cell culture media to provide improved stability and improved conditions for culturing cells.

The present invention provides a culture method of cells and/or tissues including culturing cells and/or tissues in a suspended state by using a medium composition wherein indeterminate structures are formed in a liquid medium, the structures are uniformly dispersed in the solution and substantially retain the cells and/or tissues without substantially increasing the viscosity of the solution, thus affording an effect of preventing sedimentation thereof, and the like

The present invention provides a culture method of cells and/or tissues including culturing cells and/or tissues in a suspended state by using a medium composition wherein indeterminate structures are formed in a liquid medium, the structures are uniformly dispersed in the solution and substantially retain the cells and/or tissues without substantially increasing the viscosity of the solution, thus affording an effect of preventing sedimentation thereof, and the like.

Protein glycosylation greatly influences the structure, function, and pharmacokinetics of recombinant proteins. Here, growth media supplemented with metal ions is shown to modulate the protein glycosylation profile of recombinant proteins expressed in a variety of eukaryotic cell lines. In particular, millimolar amounts of ferric salts (e.g. ferric nitrate, ferric citrate, etc.) significantly increased the percentage of galactosylated N-glycan species. The effect on protein glycosylation was concentration-dependent manner up to 1.0 mM across multiple cell lines without adverse effects on cell viability. The use of iron supplements in cell culture media provides an efficient and effective approach towards the specific re-targeting of N-glycan glycoform profiles of recombinantly expressed proteins.

Protein glycosylation greatly influences the structure, function, and pharmacokinetics of recombinant proteins. Here, growth media supplemented with metal ions is shown to modulate the protein glycosylation profile of recombinant proteins expressed in a variety of eukaryotic cell lines. In particular, millimolar amounts of ferric salts (e.g. ferric nitrate, ferric citrate, etc.) significantly increased the percentage of galactosylated N-glycan species. The effect on protein glycosylation was concentration-dependent manner up to 1.0 mM across multiple cell lines without adverse effects on cell viability. The use of iron supplements in cell culture media provides an efficient and effective approach towards the specific re-targeting of N-glycan glycoform profiles of recombinantly expressed proteins.

Cell culture media, concentrated media and feeds, methods of manufacturing cell culture media and feeds, and methods of culturing cells are provided. One or more small peptides, including dipeptides are added to the cell culture media to provide improved stability and improved conditions for culturing cells.

A medium is described for the protein-free and serum-free cultivation of cells, especially mammalian cells, whereby the medium contains a proportion of soy hydrolysate.

The specification describes an improved serum-free animal cell culture medium, which can used for the production of a protein of interest. Ornithine, or a combination of ornithine and putrescine can be added to serum-free media or chemically defined media to improve viable cell density, to reduce cell doubling time, and to increase the production of a protein of interest.

Provided herein are methods of culturing a mammalian cell in a liquid medium including poloxamer-188 at a concentration of 1.8 g/L or at a greater concentration than 1.8 g/L more or a liquid medium that includes a poloxamer-188 concentration that is selected based on one or more factors selected from the group of: pore size, pore type, gas flow rate, viable cell density in the medium, and markers related to cell stress.