From rapidly obtaining sufficient amounts of active protein in early stage development to cost effectively producing kilogram and even metric ton quantities for commercial supply, protein expression is critical at every stage of biopharmaceutical drug development. Having a high-performance protein expression platform across all stages is invaluable for the speed and success of protein and vaccine development. Historically, biopharmaceutical researchers and process development scientists have used Escherichia coli in their laboratories to generate small quantities of protein. If target expression…
June 2008 Supplement
A Review of Therapeutic Protein Expression By Mammalian Cells
During the past five years, many biopharmaceuticals have found their way into clinical trials and commercial production (1–4). So far, about 60 million patients worldwide have benefited from these new drugs. The market for biopharmaceuticals was estimated at US$33 billion in 2004 and projected to reach US$70 billion by the end of the decade. During the period 2003–2006, regulators in Europe and the United States approved 32 biopharmaceuticals for human use, including hormones and growth factors, therapeutic enzymes, vaccines, and…
An Emerging Star for Therapeutic and Catalytic Protein Production
Since the 1980s launch of the first recombinant-DNA–sourced protein insulin, the 1990s introduction of interferons and interleukins, and the first commercial approval of MAbs around the turn of the century, the therapeutic protein market has shown a very healthy growth of 15–19% (Figure 1). Between 1980 and 2004, about 300 antibodies and 400 other recombinant proteins entered clinical trials, totaling about 750 products (1). Figure 1: () A survey of biopharmaceutical production technologies in 2005 shows that Chinese hamster ovary…
Expression of a Fab Fragment in CHO and Pichia pastoris
Mammalian cell expression systems are currently essential for production of glycosylated biopharmaceuticals such as monoclonal antibodies or molecules requiring even more complex glycan structures. Various host cell and vector systems aimed at improving expression levels and quality have been established (1, 2). Development of biopharmaceutical product candidates from genes to clinical trials should be based on technology platforms that will require no major changes in the entire development chain, including manufacturing once a product candidate has successfully progressed through phase…