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Bio-processing of oncolytic group b adenoviruses for scalable production
Reference
BB/H015817/1
Principal Investigator / Supervisor
Professor Leonard Seymour
Co-Investigators /
Co-Supervisors
Dr Kerry Fisher
Institution
University of Oxford
Department
Oncology
Funding type
Skills
Value (£)
75,281
Status
Completed
Type
Training Grants
Start date
01/10/2010
End date
30/09/2014
Duration
48 months
Abstract
unavailable
Summary
Conditionally replicating viruses have been used clinically for many years, contributing to global health care goals such as the eradication of small pox. We and others are now proposing that conditionally replicating viruses could also be useful for the treatment of cancer, by designing or selecting viruses that are dependent on a malignant phenotype. Early clinical trials with conditionally replicating adenovirus (and other viruses) have shown the approach to be safe and there have been encouraging signs of tumour responses. However, the results also indicated that the viruses tested so far are incompatible with systemic delivery and incapable of efficient spread within large tumour masses. This limits the use of the oncolytic approach to multiple injections in isolated, non metastatic nodules. To improve anti-cancer efficacy Hybrid Systems have identified, by a process of bio-selection, a group B derived adenovirus that has a greater capacity to spread in tumour tissue while maintaining the tumour selectivity. The virus also has improved serum stability and may be effective by systemic administration for some tumour indications. The disadvantage of generating a virus with an optimal therapeutic phenotype (rapid replication and spread in vivo) is that yields in vitro are low when established manufacturing production protocols are used. Specifically, optimised therapeutic viruses are released from cells into the supernatant very early after initial infection. Although this is beneficial for a rolling infection through tumours, it is not optimal for a 'batch growth' method where viruses are amplified and harvested from inside cells. In order to develop methods for the production of adenoviruses with a rapid spread phenotype we first need to understand and control the process of early release or develop technologies for purifying virus from the supernatant. This proposal will include novel methods of controlling virus propagation and new techniques for virus purification including asymmetric flow field flow fractionation (AF4). The purposes of this project will be to generate a scalable, cGMP compliant manufacturing process that maximises the yield of early-lytic adenoviruses from the supernatant and rapidly progresses this novel virus in to clinical trials. It may also be possible to apply the same process to other types of adenovirus for GMP manufacture. This research will be undertaken in collaboration with Prof Seymour's research group at the University of Oxford, and through him will involve expert input from the University's cGMP adenovirus manufacturing unit, the Clinical Bio-manufacturing Facility.
Committee
Not funded via Committee
Research Topics
X – not assigned to a current Research Topic
Research Priority
X – Research Priority information not available
Research Initiative
X - not in an Initiative
Funding Scheme
Training Grant - Industrial Case
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