Investigation of the combined cytotoxicity induced by sodium butyrate and a flavonoid quercetin treatment on MCF-7 breast cancer cells.

Quercetin (QUE) belonging to the flavonoid class is a common phytochemical present in the daily diet of some individuals. Quercetin is an important source of free radical scavengers. This property makes this flavonoid a reliable antioxidant with the following properties: anti-inflammatory, anti-diabetic, antimicrobial and anti-carcinogenic.

Long term culture promotes changes to growth, gene expression, and metabolism in CHO cells that are independent of production stability.

Phenotypic stability of Chinese hamster ovary (CHO) cells over long term culture (LTC) presents one of the most pressing challenges in the development of therapeutic protein manufacturing processess. However, our current understanding of the consequences of LTC on recombinant (r-) CHO cell lines is still limited, particularly as clonally-derived cell lines present distinct production stability phenotypes. This study evaluated changes of culture performance, global gene expression, and cell metabolism of two clonally-derived CHO cell lines with a stable or unstable phenotype during the LTC (early [EP] vs.

chemo-protective effect of coelomic fluid against histone deacetylase inhibitor-induced oxidative toxicity in breast cancer cells.

Developing new drugs from natural products is important for therapeutic effects to minimise tissue toxicity of drugs used in cancer treatment. Eisenia foetida is a worm with a double transport system consisting of coelomic fluid (ECF) that can be used as alternative medicine. It is important to eliminate or reduce the high cytotoxicity of sodium butyrate (NaBu), a chemotherapeutic agent used in breast cancer treatment, for both neoplastic and normal cells.

Evaluation of the antioxidative and genotoxic effects of sodium butyrate on breast cancer cells.

Oncogenic stimulation shows a rise in reactive oxygen species (ROS), and ROS can eventually induce carcinogenesis by causing DNA damage. In this context, this study aims to evaluate some biochemical and genotoxic changes in the control of cell death caused by NaBu (Sodium butyrate). treatment in breast cancer cells.

Metabolic profiling of Chinese hamster ovary cell cultures at different working volumes and agitation speeds using spin tube reactors.

Culture systems based on spin tube reactors have been consolidated in the development of manufacturing processes based on Chinese hamster ovary (CHO) cells. Despite their widespread use, there is little information about the consequences of varying operational setting parameters on the culture performance of recombinant CHO cell lines. Here, we investigated the effect of varying working volumes and agitation speeds on cell growth, protein production, and cell metabolism of two clonally derived CHO cell lines (expressing an IgG1 and a "difficult-to-express" fusion protein).

Improved CHO Cell Line Stability and Recombinant Protein Expression During Long-Term Culture.

Therapeutic proteins require proper folding and posttranslational modifications to be effective and biologically active. Chinese hamster ovary (CHO) cells are by far the most frequently used host for commercial production of therapeutic proteins. However, an unpredictable decrease in protein productivity during the time required for scale up impairs process yields, time, finance, and regulatory approval for the desired product.

Ubiquitous Chromatin Opening Elements (UCOEs) effect on transgene position and expression stability in CHO cells following methotrexate (MTX) amplification.

The requirement for complex therapeutic proteins has resulted in mammalian cells, especially CHO cells, being the dominant host for recombinant protein manufacturing. In creating recombinant CHO cell lines, the expression vectors integrate into various parts of the genome leading to variable levels of expression and stability of protein production. This makes mammalian cell line development a long and laborious process.

Assessment of UCOE on Recombinant EPO Production and Expression Stability in Amplified Chinese Hamster Ovary Cells.

CHO cells are the most frequently used host for commercial production of therapeutic proteins, and DHFR-mediated gene amplification is extensively applied to generate cell lines with increased protein production. However, decreased protein productivity is observed unpredictably during the time required for scale-up with consequences for yield, time, finance and regulatory approval. In this study, we have examined the interaction between Ubiquitous Chromatin Opening Elements (UCOE) and DHFR-linked amplification in relation to cell expression stability.

Evaluating the interaction between UCOE and DHFR-linked amplification and stability of recombinant protein expression.

Chinese hamster ovary (CHO) cells are widely used in the biopharmaceutical industry. In the creation of mammalian cell lines plasmid DNA carrying the gene-of-interest integrates randomly into the host cell genome, which results in variable levels of gene expression between cell lines due to gene silencing mechanisms. In addition, cell lines often show unstable protein production during long-term culture.