Glycosylation drives protein quality and therapeutic benefits in protein-based therapies. Recently, there has been a push in the pharmaceutical industry to improve the consistency and quality of the glycan patterns on therapeutic proteins like monoclonal antibodies. Post-translational modification begins in the endoplasmic reticulum but is finished in the Golgi where more complex glycans are added. In this study, the addition of lipids via a novel mechanism provided by the medium supplement, Cell-EssĀ®, improves the consistency in glycan patterns so that they are more reproducible between product batches. The effect of media supplementation with Cell-Ess on the variation of glycan patterns was measured in two different media formulations across two separate experiments. Supplementation with Cell-Ess resulted in a statistically significant reduction in the variation of glycoforms when measured by the standard error of the mean. In addition, to improved consistency, there were increased higher glycoforms or galactosylation. There was also significantly more total galactosylation and significantly fewer lower glycoforms for antibodies produced by CHO cells supplemented with Cell-Ess. These data taken together suggest that the addition of lipids via Cell-Ess results in a more functional Golgi and an associated improvement of protein quality and consistency…
Tag: <span>monoclonal antibody</span>
The analytical characterization of recombinant protein therapeutic drug products has broadened to include the use of more sophisticated technologies. The expansion of technical abilities has translated into increasing the depth and breadth of our knowledge and understanding of the drug product intended for commercialization. With the availability of more precise methods, the regulatory expectations for understanding the characteristics of a protein therapeutic drug product are increasing. A thorough understanding of a therapeutic proteinās biochemical and biophysical characteristics is necessary to support investigational new drug (IND) applications and other drug regulatory filingsā¦
Regulatory agencies such as the FDA require the structure and amino acid sequence characterization of recombinant monoclonal antibodies (MAbs) to grant marketing approval. Characterizing such complex, inherently heterogeneous molecules is a significant analytical challenge that requires a broad array of physicochemical tests. Mass spectrometry (MS) is an essential tool for characterizing protein identity, functions, substrate specificity and amino acid sequence (AAS) of recombinant MAb biotherapeutics as it complements, or in some cases supersedes the utility of traditional biological methods. For some of the most important proteomic applications, the high sensitivity and accuracy provided by modern MS has allowed the unequivocal protein characterizationā¦
Proteins are widely used in research, medicine and industry, but its extraction from their natural sources can be difficult, tedious and expensive. Therefore, a simple and inexpensive system that allows large-scale production of safe recombinant proteins will always be highly desirable. Traditional production systems that use microbial, insect and mammalian cell cultures have drawbacks, in terms of cost, scalability and product safety. Several studies have shown that molecular farming in plants has many practical, economic, and safety advantages as compared to these conventional methods. Thus, the use of plants for recombinant protein synthesis is gaining wide acceptanceā¦
A variety of affinity chromatography mechanisms exist that exploit either immobilized proteins or small molecule ligands. Among them, protein-A chromatography is widely used as a platform technology for a commercial-scale manufacturing of therapeutic monoclonal antibodies. Antigen, dye and specific ligand-columns are used to purify target proteins for research uses and diagnostic applications. It uses specific interactions between affinity columns and target proteins. In general, the samples containing a protein of interest, such as cell culture media, serum, and tissue or cell lysates, are loaded on to the affinity columns; the proteins will normally bind to the column due to high affinityā¦
Since the mid-1970ās, when Kohler and Milstein first discovered the process by which myeloma cells and splenocytes could be fused to produce monoclonal antibodies (MAbs), a whole new world of important therapeutic, prophylactic and diagnostic products has opened up, bringing in huge benefits for patients and manufacturers. The total sales of therapeutic MAbs reached more than $13 billion in 2005. Sixteen of the 18 FDA-approved MAbs came to the market after 1997, and over 150 are currently in clinical development, suggesting their increasing medical importance and the remarkable, recent advancements in development technology…
The outstanding success and safety record of first generation monoclonal products has created an immense increase in the number of product candidates that need to be evaluated clinically. The concept of platform purification has emerged in response to this need. A platform is a semigeneric, multistep purification procedure that can be applied to a wide range of monoclonal antibodies without extensive method-scouting and optimization. This approach can substantially accelerate process development and hasten inception of clinical trials…
Total market share of biopharmaceuticals is estimated to increase from $33 billion now to more than $45 billion in 2007. These numbers are accounted for by the 64 products approved by European and US regulators and some of the 500 products currently under clinical evaluation. More than 2,000 products are in discovery and preclinical development. Monoclonal antibodies (MAbs) and recombinant glycoproteins constitute a major part of these new biotech leads. The estimated demands for MAbs alone are more than 6,000 kg per year in 2006. Currently, 16 MAbs are licensed by the U.S. Food and Drug Administration (FDA) for pharmaceutical use and more than 130 are in clinical trials. This fast-growing class of biotherapeutics is expected to reach worldwide sales of more than $15 billion per year in 2008. In the coming years, mammalian cell culture technology will remain the production system of choice for MAbs and other recombinant glycoproteins. Therefore, efficient, cost-effective production systems need to be in place to meet the demands…
A growing number of separationsā scientists and process developers are looking beyond protein A sorbents for capture and initial purification of monoclonal antibodies. A variety of strategic and operational goals have prompted examination of alternative immunoglobulin-selective sorbents. Most broadly, many workers wish to eliminate design considerations associated with leached protein A. Also cited is a preference for sorbents that can withstand stringent cleanup using 1 M sodium hydroxide. In some applications, it is desirable to avoid the low-pH elution conditions typically employed with protein A sorbents ā conditions that can foster aggregate formation. In still other cases, the target antibody may bind poorly to protein A. Finally, there may be interest in evaluation of immunoglobulin-selective sorbents less costly than protein A sorbents…