In order to unravel new protein activities and functions, we have expressed and purified a large number of human proteins. We have chosen to study secreted proteins and the extra-cellular domains of putative single transmembrane domain-containing proteins. In order to retain the natural protein characteristics as far as possible, we have used a mammalian expression system. Human embryonic kidney (HEK293) cells were chosen as they have been shown to possess a high protein-secretory potential. The secreted proteins were expressed with a carboxy-terminal tag and purified by affinity chromatography. Each protein was produced at a routine scale from 500 ml cell cultures, and the secreted protein was purified from the culture supernatant…
Tag: <span>outsourcing</span>
One of the major concerns facing relatively young biotechnology companies once a lead product has been identified is the issue of manufacturing. Usually this involves the upscaling of a lab-scale process while at the same time, complying with good manufacturing practice (GMP) to ensure a reproducibly-produced and consistent product. It also involves the establishment of specific and robust assays in process controls and release criteria. This issue has become more acute in the EU since 2004 due to the EU Clinical Trials Directive requiring GMP-certified production of investigational medical products even for phase I trials. Startup biotech companies are often limited in their finances and resources, as well as being bound by tight milestones. Quite often the expertise in upscaling and GMP-compliant production as well as the facilities and equipment required are not available in-house…
In today’s aggressive biopharmaceutical market, many drug discovery organizations, including both big pharmaceutical companies and small technology start-up companies, are outsourcing the development and manufacturing of their biopharmaceuticals to specialized contract manufacturing organizations (CMOs). Outsourced biopharmaceuticals range from those in early phase production to products that are well advanced down the development pipeline. As a result, there has been an expansion of CMOs that specialize in all aspects of biopharmaceutical manufacture, from process invention and development, through small-scale GMP production, to process validation and large-scale manufacture. The CMOs provide R&D services, quality function, and state-of-the-art good manufacturing practice (GMP) facilities needed for the production of biopharmaceutics. Using CMOs for biopharmaceutical process development and manufacture provides major cost savings by dispensing with the need to invest in experienced personnel and expensive manufacturing facilities…
A program for control of biopharmaceutical raw materials is a critical quality system that helps assure patient safety and contributes to product quality. The systems for testing and acceptance must be scientifically based, and meet global regulatory requirements and standards. When a new raw material is sourced, it is important to quickly establish the quality profiles for the supplier and the raw material. Among the numerous challenges that confront a company attempting to establish an effective, compliant, raw materials program, this paper will address the following: • Challenges in sourcing and tracing raw materials that are suitable for use in human therapeutics • Challenges and obstacles in qualifying suppliers • Special challenges faced by a firm that has outsourced its manufacturing and/or quality control (QC) testing…
The revolution in biotechnology has led to 133 biotechnology-derived medicines being approved by 2001 with sales of $22 billion. This is less than 10 percent of today’s total pharmaceutical market, but it is a rapidly growing sector. Biologics are predicted to grow to nearly $50 billion by 2008. Marketed biopharmaceuticals include several blockbuster products with multibillion-dollar sales. In recent years, biotechnology-derived therapies represented 10 percent to 20 percent of all new approved molecular entities and hundreds more are in development, including nearly 200 proteins in late-stage trials. Microbial and mammalian expression systems are typically used to produce biotherapeutic proteins (many companies are also working on transgenic expression systems). Microbial cultures (typically, Escherichia coli or yeast) are used to produce smaller, less-complex proteins or those where specific modifications, especially glycosolation, are not required…
Long-term growth of the biopharmaceutical industry is increasingly relying on outsourcing to overcome the current capacity constraints, especially for monoclonal antibody production. Companies are often reluctant to commit to building multimillion dollar manufacturing facilities for potential products with no guarantee of approval. Therefore to offset risks, companies will enter into contract manufacturing arrangements…