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Professors Zhelev (UoA5) and Bradley (UoA15) explored the scope and demonstrated the feasibility of using light-scattering methods for quantitative analysis of macromolecular associations and aggregation, including protein-protein and protein-DNA interactions. 16 years of design and development research was translated into a marketed product — the PAM™Zero — a novel hand-held, low-cost protein aggregation monitor capable of detecting macromolecule aggregation in microliter sample volumes. Manufactured and sold through a spinout company, Norton Scientific Inc. (established in 2010 and valued at $7M), this portable instrument is used in commercial Quality Control and academic research and has been sold to a range of stakeholders e.g. drug development companies, for food safety and water pollution monitoring.
Combinatorial Domain Hunting (CDH) technology is a technique for producing fragments of proteins that are soluble and tractable for biophysical analysis. It was developed between 1999 and 2008 at Birkbeck College, in the laboratory of Dr Renos Savva. This technology was patented in 2001 and the biotech company Domainex Ltd was then formed to commercialise it. In 2007, Domainex merged with a UCL spinout company, NCE Discovery Ltd. The company has attracted over £3m in investment and employs about 31 people. In addition to its contract research programme, it has developed an in-house drug discovery programme utilising CDH. Early in 2012 a patent was filed on a series of inhibitors of the protein kinases IKK03b5 and TBK1, which are validated drug targets for cancer and inflammation, and the first of these are expected to begin clinical trials in 2014.
Protein modification represents a highly significant and growing source of new products for the biopharmaceuticals market. This case study outlines the development of PolyTherics, a highly successful spin-out company from the UCL School of Pharmacy, and the impact that their enabling technology has had on the pharmaceutical and biotechnology industries. The company was developed as a direct result of new conjugate technology developed by Professor Steve Brocchini and coworkers at the School. The company moved to independent premises in 2006 and now manages a portfolio of over 100 granted and pending patents. Several licensing agreements are in place, including with Celtic Pharma Holdings for haemophilia treatments and Nuron for a multiple sclerosis treatment based on PEGylation conjugation technology. Revenue is expected to be £8m in 2013. The impact of Polytherics is therefore as a significant and effective technology provider to the pharmaceutical and biotechnology industries.
The Fuller Longer™ (FL) food range was developed by Marks & Spencer (M&S) with expertise from the University of Aberdeen Rowett Institute of Nutrition and Health. Product development was based on Rowett research into the efficacy of high protein and mixed carbohydrate diets for sustained appetite control and weight loss. Obesity is a major public health challenge; therefore it is not surprising that FL has become an established brand for M&S's 20 million customers. This industry-academia partnership to develop a food range based on scientific input, was a first for M&S, and has led to one of the UK's most popular retail healthy-eating food ranges.
Therefore the claimed impact here includes benefits to health and welfare, on commerce, business performance and the economy.
Essex research identified a novel bioprocessing matrix which has since been developed into commercial products and recently launched into external markets by Porvair Filtration Group Ltd. The discovery involved the chemical modification of sintered thermoplastic materials in order to attach biological molecules, so conferring highly specific functionalised properties to an otherwise inert base material. This enabled a new approach for protein immobilisation, having technical and practical advantages over existing processes. As a direct result, Porvair has adopted a new technology and invested £900k in R&D over eight years. Essex research has supported a change in business strategy, enabling entry into new markets, which has in turn both safeguarded and created jobs at Porvair.
The Institute of Cancer Research (ICR) founded the spin out company Domainex in 2002 in collaboration with UCL and Birkbeck. The company was set up on the basis of novel research into the expression of soluble protein domains to provide services to a range of bioscience-based companies. Within the period 2008-2013, Domainex has established profitability and positioned itself as a successful company employing over 30 scientists at its laboratories in Cambridge. It has established programmes and contracts with over 20 international clients in medicinal chemistry, drug discovery, monoclonal antibody development and agrochemical science, making a major commercial impact in all these fields.
Impact: EaStCHEM spin out Albachem (1994), subsequently incorporated into the Almac group, enabling the latter company to become a world leader in the provision of chemically synthesised proteins.
Significance: Chemical synthesis is competitive with recombinant methods for commercial production of the therapeutic polypeptides that represent ~50% of drugs in big pharma pipelines and have a market value in 2008 of over $13B. The value attributable to Ramage's methods for polypeptide syntheses over the REF period is estimated at approximately £6M.
Beneficiaries: Drug manufacturers, contract research organisations, patients, clinicians.
Research: Studies (1993-6) led by Ramage (at the University of Edinburgh) on new methods for high-yield total syntheses and purification of long polypeptides.
Reach: Almac's protein-manufacturing team remains in the UK with 24 staff members. The Almac Group, headquartered in N. Ireland, has 3300 employees globally (1300 outside UK) and sells to 600 companies worldwide.
Research carried out within Imperial's Life Sciences department led to a collection of new kit solutions to screen the crystallisation conditions of various membrane proteins. These screens were exclusively commercialized by Molecular Dimensions, a UK company, in 2002, 2003 and 2008 under license from Imperial College London. They are the primary screening kit in membrane protein crystallization that is commercially available. These screens have helped to screen the crystallization conditions of a wide range of membrane proteins, leading to many new structures. Molecular Dimensions has sold [text removed for publication] screens, worth more than [text removed for publication], to both academia and industry all over the world.
DICHROWEB is a comprehensive, user-friendly server that provides access to computational tools for the determination of protein secondary structure from data obtained through circular dichroism (CD) and synchrotron radiation (SRCD) spectroscopy. The Protein Circular Dichroism Data Bank (PCDDB) is a database of spectra obtained using these techniques and allied data. Both resources are widely and increasingly used in many countries and are proving useful in industrial research (for example, in drug discovery) as well as academia and advanced teaching. DICHROWEB currently has over 3,600 registered users and over 375,000 DICHROWEB analyses have been run. Since the launch of PCDDB in 2009, the database has had over 175,000 unique hits from 41 different countries, and 89,890 downloads.
Kinases, the enzymes that catalyse phosphorylation events, have been implicated in hundreds of different diseases, and hold rich promise for drug development. In 1998, The University of Dundee developed the first systematic assay to analyse the selectivity of protein kinase inhibitors, termed `kinase profiling'. This technology has been crucial for the development of new therapeutic drugs targeting protein kinases. In order to promote drug discovery in the area of kinases, the Division of Signal Transduction Therapy (DSTT) was formed and provides a unique collaboration between the University and six of the world's leading pharmaceutical companies.