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Researchers from the University of Oxford identified the novel human protein Forkhead box transcription factor 1 (FOXP1) and showed it to be an important prognostic biomarker in cancer. Expression of FOXP1 can distinguish those patients with diffuse large B-cell lymphoma (DLBCL) who are at high risk of disease progression, making it possible for clinicians to target more intensive therapy to this group. DLBCL accounts for one third of lymphomas and is the seventh commonest form of cancer. The anti-FOXP1 monoclonal antibody developed by Oxford University is now used worldwide in clinical diagnostics.
Kidney disease affects about 10% of the population and 10% of these patients develop established kidney failure (ERF). Transplantation is a better treatment for ERF than dialysis but is limited by acute and chronic graft rejection. Treatment of rejection mediated by the recipient's T-lymphocytes is now remarkably successful, but antibody-mediated rejection (AMR) remains challenging. A principal cause of AMR is recipient antibodies targeting human leukocyte antigen (HLA, also known a tissue type) on the transplant organ. The presence of such antibodies previously vetoed transplantation but in the last ten years it has become increasingly feasible to transplant across HLA antibody barriers. Research at the University of Warwick (UoW) by Dr Daniel Zehnder and Professor Robert Higgins has facilitated and accelerated this process. Their research includes the first detailed monitoring of antibody levels after transplantation, showing how these affect graft function, and the development of new techniques to remove antibodies from patients. This resulted in over 100 HLA-mismatched renal transplants taking place in Coventry giving a net saving to the NHS of over £5M. Their research and its clinical translation encouraged the performing of another 350 such transplants across the UK and initiation of the National Case Registry.
Research conducted by a multidisciplinary team of oncologists and scientists at the University of Southampton has driven major advances in lymphoma care, leading to the development and standardisation of effective new antibody treatments and optimal drug regimens. Through their direction of international clinical trials, they have influenced care for Hodgkin and Burkitt lymphoma in the UK and internationally, affecting all stages of patient-experience from diagnosis to treatment. Their findings underpin significant improvements in survival and quality of life for the 14,000 people affected by lymphoma in the UK each year.
The University of Nottingham spin out company Scancell Holdings plc is developing novel immunotherapies for the treatment of cancer. By licensing products (£6million) and listing and raising money (£4million) on the stock exchange, it has provided an excellent return for investors. In 2012, in response to good clinical trial results, Scancell's shares showed the greatest percentage increase (10fold) on London's AIM stock exchange, reaching a market capitalisation of £98million. This has encouraged further investment (£6.5million) which is in line with the Government's plan to promote the Biotechnology Industry. As the products progress to market it will save further lives and continue to increase in value providing further profit for investors.
Research conducted by Professor Jo Bradwell at the University of Birmingham provided the basis of the commercially available diagnostic test Freelite®, which quantifies free immunoglobulin light chains in serum and was the first and only assay for the diagnosis and monitoring of Multiple Myeloma (MM). MM is a cancer of immunoglobulin producing plasma cells in the bone marrow. Freelite® has markedly improved the diagnosis and management of MM, is helpful in the diagnosis of all B cell lymphoid neoplasias and provides prognostic information for premalignant conditions present in over 3% of people over 50 years of age. Freelite was commercialised by the University of Birmingham spinout company, the Binding Site, which has achieved worldwide sales, with over 360,000 tests being sold per month in 90 countries and an ongoing 25% annual growth in sales. The company provides annual revenue of £55m and employment for 620 people in the UK and abroad. An improved second generation of tests has been developed by Professor Mark Drayson at the University of Birmingham, which has been commercialised by a second University spinout company Serascience, which started marketing a point of care free light chain diagnostic test worldwide in April 2013.
BioAnaLab's mission is to advance innovative biopharmaceuticals, such as therapeutic antibodies for cancer treatment, into the clinic. From 1995, the University of Oxford pioneered methodology essential for validating top quality therapeutic antibodies and monitoring their activity in patients. This expertise led to the establishment in 2002 of BioAnaLab, a successful Isis Innovation spin-out company. By 2009 BioAnaLab employed 50 staff providing analytical services to approximately 100 pharmaceutical and biotechnology companies worldwide and had annual sales exceeding £3.13 million. BioAnaLab was subsequently acquired in 2009 by Millipore Corporation to become an integral part of Merck/Millipore's global drug discovery unit.
Colorectal cancer is a common disease, which frequently causes death or morbidity, either because of failure to control the primary tumour or failure to prevent distant metastases. Leeds researchers have devised new treatment approaches using chemotherapy and radiotherapy and tested them in large randomised controlled trials which have led to major changes in clinical practice in the management of rectal cancer and advanced colorectal cancer (aCRC), driving clinical decision-making and improving outcomes for patients. This includes better-evidenced treatment for elderly patients and patient stratification on the basis of molecular biomarkers.
Southampton research underpins the clinical development of a new class of anti-cancer monoclonal antibodies (mAb), such as anti-CD40, anti-CD27 and anti-CD20. The most advanced is a next generation, fully human drug, ofatumumab (commercialised by GlaxoSmithKline/Genmab; trade-name Arzerra) approved in Oct 2009 to treat advanced chronic lymphocytic leukaemia. Its approval was based on a 42% response rate in patients who had failed current `best in class' treatment. Arzerra is now a multi-million dollar drug, launched in 26 countries (and growing) and is being used in 19 on-going clinical trials worldwide for diseases ranging from lymphoma to rheumatoid arthritis and multiple sclerosis. Southampton's work has inspired follow-on funding from government and industry in excess of £12m.
Researchers at the University of Manchester (UoM) have made a significant impact nationally and internationally on improving the outcome for children with acute lymphoblastic leukaemia (ALL) (~450 pa in the UK). The changes in clinical practice based on our research are now national standards of care for children with de novo and relapsed ALL in the UK and Ireland. Other international groups have adopted key findings from the results of our frontline trials. Our relapse protocol for childhood ALL underpins European and North American strategy for the management of relapsed disease.
The UCL Centre for Amyloidosis and Acute Phase Proteins conducts world-leading research and development that has rapidly fed through to patient care. These include advances in the diagnosis of amyloidosis and clinical characterisation of many new subtypes including genetic forms, development and application of new biomarkers to monitor disease activity and progress, new modalities of imaging and better treatment. The consequences have been new standards of clinical care adopted nationally and internationally, improved and more accurate diagnosis, steady improvements in the outcomes of this disease, major investment by the NHS and adoption of new clinical metrics by the pharmaceutical industry to enable research on specific new therapies currently in development.