Provided are mammalian cells devoid of lactate dehydrogenase activity.

A serum free cell culture media, wherein the media is adapted to be conditioned by culturing a first set of eukaryotic cells in the media, wherein the first set of eukaryotic cells use an expression vector to excrete levels of desired complex proteins into the media; wherein said desired complex proteins include human Growth Hormone (hGH), Growth Hormone-like growth factors, insulin-like growth factors, insulin, modified insulins, cytokines, mitogenic proteases and mixtures thereof; and wherein the media is adapted to grow a set of eukaryotic cells.

The invention provides inducible promoter systems and their components incorporating components of a tetracycline operon. By coordinating expression of different transcriptional units in these systems as a result of selection of promoters and/or linking the units into the same DNA molecule, these systems can achieve higher levels of expression of coding segments of interest, increased differential levels of expression between on- and off-states, and/or greater responsiveness to inducing agents than conventional systems.

This disclosure provides a cell culture media extending material capable of releasing nutrients into the cell culture environment slowly over time. In embodiments, this material is a part of a cell culture vessel. In embodiments, the material is a coating or a film on a surface of a cell culture material. In additional embodiments, the material is a surface upon which cells are cultured, such as a cell culture vessel or a microcarrier.

The present invention relates in general to the field of recombinant protein expression. In particular, the present invention relates to a method for selecting a suitable candidate cell clone for recombinant protein expression and to a host cell for recombinant protein expression, the host cell exhibiting artificially modified gene expression of at least one gene selected from the group consisting of: Fkbp10, ZdhhC6, Myrip, Actc1, AC124993.19, Runx2, AC158560.4, PlekhB1, Rps6KA2, Sept1, Sprr2k, and Flt1.

We describe a method of reducing batch-to-batch variation or increasing homogeneity between batches in the production of a recombinantly expressed polypeptide. The method comprises expressing the polypeptide in a Chinese hamster ovary (CHO) cell comprising reduced UDP-galactose transporter activity compared to a wild-type CHO cell. In some embodiments, the CHO cell further comprises reduced GDP-fucose transporter activity.

The present disclosure features methods and compositions for modulating lipid metabolism to achieve improved production and quality of recombinant products, such as next generation biologics. Modulation of lipid metabolism as described herein includes, for example, introducing a lipid metabolism modulator described herein to a cell or a cell-free system. Also encompassed by the present disclosure are engineered cells with improved production capacity and improved product quality, methods for engineering such cells, and preparations and mixtures comprising the products from such cells.

Various cells, stem cells, and stem cell components, including associated methods of generating and using such cells are provided. In one aspect, for example, an isolated cell that is capable of self-renewal and culture expansion and is obtained from a subepithelial layer of a mammalian umbilical cord tissue. Such an isolated cell expresses at least three cell markers selected from CD29, CD73, CD90, CD166, SSEA4, CD9, CD44, CD146, or CD105, and does not express at least three cell markers selected from CD45, CD34, CD14, CD79, CD106, CD86, CD80, CD19, CD117, Stro-1, or HLA-DR.

Methods of improving recombinant protein titer and cell titer in cell culture using cell culture media having reduced impurities are provided, and well as cell culture media having reduced impurities that can used for the production of a recombinant protein and cells with improved titer. The cell culture media having reduced impurities comprises a HEPES buffer, and the reduced impurities are HEPES related impurities. In certain aspects, methods and media improve protein titer, cell growth, and/or viable cell density.

The present invention provides a recombinant eukaryotic cell expressing one or more heterologous double strand break (DSB) repair proteins in an amount effective for enhancing DSB repair in the cell. The recombinant eukaryotic cell may express a recombinant product of interest. Also provided are methods for enhancing double strand break (DSB) repair in eukaryotic cells, establishing host cells for production of a recombinant product of interest, producing a recombinant product of interest, improving production of a recombinant product of interest by eukaryotic cells, and/or investigating suitability of eukaryotic cells as host cells for producing a recombinant product of interest.