Termination of collaboration

Oxford Biomedica PLC 2 October 2001 For immediate release 2001/OB/16 2 October 2001 For further information, please contact: Oxford BioMedica plc Professor Alan Kingsman, Chief Executive Tel: +44 (0)1865 783 000 City/Financial Enquiries: Melanie Toyne Sewell/Fiona Noblet Financial Dynamics Tel: +44 (0)20 7831 3113 Scientific/Trade Press Enquiries: Chris Gardner, HCC*De Facto Group Tel: +44 (0)20 7496 3300 OXFORD BIOMEDICA PLC TERMINATION OF COLLABORATION WITH MODEX THERAPEUTICS SA Oxford, United Kingdom - 2 October 2001. Oxford BioMedica plc (LSE:OXB) ('BioMedica') today announced that its collaboration in the diabetes field with Modex Therapeutics S.A. of Lausanne, Switzerland ('Modex') has been terminated by mutual agreement. Strategically, Modex has decided to discontinue its diabetes programme and focus on its other development programmes. There is no financial loss for BioMedica associated with this termination. The collaboration, initiated in July 1999, used BioMedica's LentiVector(R) to modify pancreatic b-islet cells. The vectors have been shown to deliver genes very efficiently to these cells and have met all of the expectations. BioMedica is currently in discussion with two other companies with interests in diabetes applications. An exciting opportunity in this field is the application of LentiVector(R) to stem cell engineering approaches. Professor Alan Kingsman, Chief Executive, commented: 'We are sorry that Modex has moved away from its diabetes programme. However, with respect to BioMedica, the Modex programme represented only a minor part of our activities and our other programmes, including the two clinical trials, are progressing very well.' -Ends- Notes to Editors 1. Oxford BioMedica plc Established in 1995, the Company specialises in the application of gene-based technology to the development of novel therapeutics. Its three principal activities are in the fields of gene therapy, immunotherapy and genomics, and its principal therapeutic areas are in cancer and neurodegenerative diseases. Oxford BioMedica plc was floated on the Alternative Investment Market of the London Stock Exchange in December 1996, and upgraded to the United Kingdom Listing Authority Official List in April 2001 following a successful £35.5 million fund-raising. Oxford BioMedica has operating centres in Oxford, UK and San Diego, USA Currently Oxford BioMedica has corporate collaborations with Aventis, AstraZeneca, IDM, Nycomed Amersham, Valentis, Virbac and Wyeth. BioMedica has two products in Phase I/II clinical trials: MetXia(R) for late-stage breast cancer and ovarian cancer, and TroVaxTM for late-stage colorectal cancer. 2. Modex Therapeutics Modex Therapeutics is a publicly listed Swiss biotechnology company, founded in 1996 with a focus on tissue repair, regeneration and replacement (T3R). T3R represents a new approach to medicine, with the goal of repairing or regenerating human tissues or organs affected by disease, trauma or premature ageing. Registered shares of Modex Therapeutics (MDXN) are traded on the SWX New Market. 3. Encapsulated cell therapy collaboration for diabetes Under an agreement dated July 1999, Modex took a license for BioMedica's LentiVector(R) technology to develop a device to secrete insulin in patients with insulin-dependent diabetes, aimed at obviating the need for insulin injections. Modex aimed to encapsulate b-islet cells from a donor pancreas in order to construct a device that would secrete insulin in response to fluctuations in glucose concentrations. LentiVector(R) was licensed to genetically modify the donor pancreatic cells to prevent their rapid death following encapsulation. Under the agreement, BioMedica received annual maintenance fees. All product development costs under the programme were met by Modex. 4. LentiVector(R) gene delivery systems In gene therapy, the aim is to deliver a gene and its necessary regulatory elements (the gene construct) to the cell surface, using a vector to mediate the transfer across the cell membrane and, in some cases, into the nucleus. A new and increasingly powerful vector system is based on lentiviruses, which have similar features to retroviruses in the ease of manipulation, predictable integration and reliable gene expression and regulation. However, their main advantage over retroviruses is the ability to function in non-dividing cells or cells that are dividing slowly - a feature of many clinically important tissues. Oxford BioMedica is a leader in the development and application of lentiviral vectors. Its proprietary LentiVector(R) technology is protected by international patents, including US patents for which notice of allowance was received in 2001. 5. World Wide Web This release is also available on the World Wide Web at http://www.oxfordbiomedica.co.uk