Traditionally, the CaSSS CMC Strategy Forum meetings have provided a scientific focus on the development of biotech drug substances and their manufacture and characterization, leaving the development of drug product formulation and filling, understanding primary containers, and considering novel delivery systems somewhat out of scope. Over recent years, however, the importance of investing more science and technology into drug product development has become evident as different product types, higher protein concentrations, and doses and requirements for improved delivery of biological…
Pre-Formulation
Tunable Half-Life Technology
While a constantly developing market puts increasing pressure on pharmaceutical companies to provide advanced and personalized therapies, the industry is investing heavily in the development of targeted biologics. The aim is often to take new therapeutics through clinical trials and to market as quickly as possible and to develop more novel, tailored drugs. One common challenge for many biologics is their short plasma half-life. That often leads to reduced bioavailability, meaning that an administered drug will clear from a patient’s…
Preformulation Development of a Recombinant Targeted Secretion Inhibitor
Our company carried out a preformulation study on a recombinant targeted secretion inhibitor (TSI) with contract research organization (CRO) Avacta Analytical. In this protein, the binding domain of botulinum toxin is replaced to broaden the toxin’s therapeutic potential and allow drug development to be targeted towards a specific disease. In our study, we took advantage of the high-throughput, microvolume protein analysis of Avacta’s Optim 1000 fluorescence and light-scattering instrument (which is distributed in the United States by Pall Corporation). It…
A High-Yielding, CHO-K1–Based Transient Transfection System
Biotherapeutics have emerged as effective treatments for many diseases. It’s estimated that every year hundreds of new biotherapeutic candidates enter development (1). Stable transfection of host cells to establish high-producing cell lines is the approved method for generating clinical-grade recombinant biologics. However, biotechnology companies needing to speed up their developmental timelines are increasingly relying on material generated using transient transfection (1, 2). Unlike stable gene expression (SGE) that requires several months of laboratory and process work, transient gene expression (TGE)…
Legacies in Bioprocessing
Bioprocessing is full of legacies. Our remote ancestors discovered fermentation: microbial magic that transformed fruit to wine and grain to beer. Building on the work of Edward Jenner and others, Edward Ballard systematically reinfected cattle to make vaccines. Louis Pasteur revolutionized both fermentation and vaccination by showing that different microbes caused fermentation and spoilage (saving wine and beer production from disastrous batch contamination), establishing the germ theory of disease, and using that knowledge to develop new vaccines against endemic infections.…
Key Aspects of Enzyme Activity and Steady-State Kinetics
Living systems rely on enzymes to perform many essential functions for survival. One prime example is digestion, the conversion of food into energy. Each enzyme possesses specific requirements for the types of molecules that it can use as substrates or reactants to convert to products. Here, I provide some basic information about enzymes, explain their biochemical parameters (e.g., kinetic parameters) and significance for characterization, and review related assays currently available to the bioprocess industry. Lactose intolerance is a common enzyme…
Ongoing Challenges of Applying QbD to Biopharmaceutical Products
Quality by design (QbD) was a hot topic at IBC’s BioProcess International Conference and Exhibition, 20–24 September 2010 (Providence, RI). For her keynote address, Helen Winkle (director of the FDA’s Office of Pharmaceutical Science) discussed the agency’s continuing efforts to improve product quality regulation as well as opportunities and challenges of implementing QbD for biotechnology products (1). Since introducing its 21st Century Initiative in 2002, the FDA has made some headway toward enhancing product quality through QbD (2). The QbD…
PEGylating Peptides (and Proteins)
Peptides should be promising drug candidates. But their small size makes delivery difficult and gives them an extremely short in vivo half-life. They are often cleared by the kidneys or reticuloendothelial system only minutes after being administered, and they are susceptible to degradation by proteolytic enzymes. These problems could be solved by linking them to polyethylene glycol (PEG). Repeating chains of ethylene oxide (CH2CH2O), PEG molecules can be long or short and straight or branched. PEG groups are linked to…
I’m Losing Cell Viability and Function at Different Points in My Process, and I Don’t Know Why!
Development of cell and tissue therapies presents bottlenecks in manufacturing process development and scale-up as commercial and academic groups move from small-scale research and development (R&D) to more complex logistics. Often, the simplicity of maintaining cell yield, viability, and function in a laboratory setting cannot be replicated when source tissue and final therapeutic products are subjected to the extended distances and times of actual clinical delivery. These bottleneck issues have a number of causes. One specific and common…
Large-Scale Freezing of Biologics
Production of biologics is expensive. To optimize capacity use, bulk protein solution produced in manufacturing campaigns is often converted into drug product based on market demand, so it may be stored for relatively long periods. To decouple production of bulk solution from that of a final drug product, the bulk is often stored frozen. Transport of frozen bulk between sites offers several practical advantages over bulk transport in the liquid state (2–8 °C). Maintaining 2–8 °C requires accurate systems control…