Publications by authors named "T Jostock"

The bioprocessing industry uses recombinant mammalian cell lines to generate therapeutic biologic drugs. To ensure consistent product quality of the therapeutic proteins, it is imperative to have a controlled production process. Regulatory agencies and the biotechnology industry consider cell line "clonal origin" an important aspect of maintaining process control.

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Recombinant CHO (Chinese hamster ovary) cell lines producing therapeutic proteins often lose their production capability during long-term cultivation. To ensure that CHO production cell lines can be up-scaled to high-volume bioreactors, labor intensive stability studies of several months have to be performed to deselect clones that are losing productivity over time. The ability to predict whether clones will produce recombinant proteins at constant high levels, for example, through determination of biomarkers such as expression of specific genes, plasmid integration sites, or epigenetic patterns, or even to improve CHO host cell lines to increase the probability of the generation of stable clones would be highly beneficial.

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Recently, we reported that the loss of a telomeric region of chromosome 8 in Chinese Hamster Ovary (CHO) cells correlates with higher recombinant productivities. New cell lines lacking this region, called CHO-C8DEL, showed several advantages during cell line generation and for the production of recombinant proteins (Ritter et al., 2016, Biotechnol Bioeng).

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Cell line generation for production of biopharmaceuticals in mammalian cells usually involves intensive screening of clones to identify the rare high producers. In order to facilitate efficient and selective fluorescence activated cell sorting (FACS) based enrichment and cloning of antibody producing CHO cells, we developed a special vector setup by inserting a leaky translation termination signal between the heavy chain of an IgG antibody and an IgG transmembrane domain. Partial read-through during translation of the antibody heavy chain leads to display of a subset of the produced antibody on the surface of the expressing cell.

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Chinese Hamster Ovary (CHO) cells are widely used for the large-scale production of recombinant biopharmaceuticals. However, attempts to express IGF-1 (a mutated human Insulin-like growth factor 1 Ea peptide (hIGF-1Ea mut)) in CHO cells resulted in poor cell growth and low productivity (0.1-0.

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