Chromatography media and methods have evolved continuously since their introduction a half century ago. Traditional methods use columns packed with porous particles. They still dominate chromatography applications in the field of virus purification, but the past 20 years have witnessed the ascendance of alternative supports, namely membranes and monoliths. These newer media exploit the familiar surface chemistries — ion exchange, hydrophobic interaction, and affinity — but they use unique architectures that offer compelling performance features. The Architecture of Chromatography Media…
MAb
Cellular Therapy Success Through Integrated Automation
Cell therapies are being developed for a rapidly expanding range of indications. Genzyme Corporation has a treatment of cartilage in joints in long-term follow-up stage (Genzyme Corporation, www.genzyme.com). Cell Therapies are being investigated successfully in applications to treat infectious diseases such as AIDS, repair spinal cord injuries, strengthen immune systems, and treat neurological disorders such as Alzheimer’s disease, Parkinson’s disease, and epilepsy. Positive results have been reported in treating arteriosclerosis and other cardiovascular diseases, congenital defects, breast reconstruction, and liver…
Probing Thermal Stability of MAbs By Intrinsic Tryptophan Fluorescence
In the arsenal of biophysical techniques available for rapidly monitoring the stability of protein formulations, spectroscopic techniques have some convincing advantages over others (1, 2). The main advantages to using methods such as circular dichroism (CD), infrared spectroscopy (IR) and fluorescence spectroscopy are their extremely high sensitivity (favorable signal-to-noise ratios), freedom from sample interactions with column resins or extrinsic probes (noninvasive techniques), and coverage of an extremely broad protein concentration range — from pM to mM (3, 4). To reduce…
Validation of Adventitious Virus Removal By Virus Filtration
Regulatory bodies around the world expect downstream purification processes to demonstrate robust clearance of model adventitious viruses in time for execution of phase 3 clinical trials and product licensure (1,2,3). Model viruses selected for these studies should represent a diversity of viral physicochemical properties, and the clearance methods applied should include orthogonal mechanisms such as clearance based on size alongside chemical inactivation. Virus filtration is a critical unit operation used in numerous purification processes of monoclonal antibodies (MAbs), recombinant proteins,…
In the Therapeutics Zone
Small molecules are still not providing cures for many diseases, and this is why biological therapies continue to be developed. They often offer greater convenience to patients, as well as longer lasting therapies,” says William Prather, MD, senior vice president of corporate development at the Israeli stem cell company, Pluristem. The therapeutics area at this year’s BIO International Convention will play host to many interesting technologies for producing and improving protein therapeutics, vaccines, and stem cells. Protein Therapies Remain Top…
Development of an Antibody Screening Assay for Selection of Production Cell Lines
Biopharmaceuticals such as recombinant monoclonal antibodies (MAbs) account for a significant proportion of all new drugs (1,2,3). Although manufacturing site capacities have expanded and process efficiencies have improved greatly, there is still some concern the current biomanufacturing capacity worldwide might not meet increasing market demands (1, 2). PRODUCT FOCUS: RECOMBINANT PROTEINSPROCESS FOCUS: PRODUCTION PROCESS DEVELOPMENTWHO SHOULD READ: QA/QC, PROCESS DEVELOPMENT, AND ANALYTICAL PERSONNELKEYWORDS: CELL LINE DEVELOPMENT, SCREENING ASSAY, MONOCLONAL ANTIBODIES, FC PROTEINS, CHO, IGG, HTRF, ANTIBODY TITER, CELL LINE PRODUCTIVITY,…
Cell Cultivation Process Transfer and Scale-Up
The introduction of therapeutic monoclonal antibodies (MAbs) has greatly revolutionized therapies for several cancer immune disorders (1,2,3,4,5). Benefits to patients have been substantial, translating into both increased life expectancy and improved quality of life. Currently, twenty-one therapeutic MAbs are registered for marketing in the United States, with the introduction of several more expected in the coming years (6,7,8,9,10,11). PRODUCT FOCUS: MONOCLONAL ANTIBODIESPROCESS FOCUS: Technology transfer (production) and analytical methods developmentWHO SHOULD READ: PRODUCTION AND PROCESS DEVELOPMENT, MANUFACTURINGKEYWORDS: IGF-1R, EXPRESSION, TECH…
Variables Affecting Titer and Long-Term Stability of Virus Stocks
Assurance that monoclonal antibody (MAb) therapeutics produced using large-scale animal cell culture are free of adventitious agents is based on three complementary approaches. First, a master cell bank is extensively characterized to demonstrate its freedom from adventitious agents. In addition, end-of-production cell culture material is tested and demonstrated to be free of adventitious contaminants. Finally, the viral clearance capacity of a purification process is assessed using model viruses. PRODUCT FOCUS: MONOCLONAL ANTIBODIESPROCESS FOCUS: PURIFICATIONWHO SHOULD READ: MANUFACTURING, PROCESS DEVELOPMENT, REGULATORY…
Proteomics Technology Applied to Upstream and Downstream Process Development of a Protein Vaccine
Development and manufacturing of recombinant-protein–based vaccines has in the past few years become very similar to that of other well-documented and well-characterized biological drugs. For investigational vaccines, chemistry, manufacturing, and controls (CMC) information is critical for a successful regulatory filing. The process development and CGMP manufacturing of a recombinant protein drug is on the critical path toward clinical phase 1 dosing and safety studies as well as proof-of-concept clinical studies (1, 2). However, resources invested in this process may be…