Product category:
Antibodies
News Release from: Oxford BioMedica
Edited by the Laboratorytalk Editorial
Team on 21 March 2003
Genetic vector technology licenced
May prove key to development of avian transgenic technology as a novel platform for the efficient, cost-effective manufacturing of protein drugs
Oxford BioMedica has signed an option agreement with the US biotechnology company Viragen that may lead to a licence for the use of Oxford BioMedica's LentiVector gene transfer technology for the production of therapeutic proteins from the eggs of transgenic chickens The technology may prove key in Viragen's collaboration with Roslin Institute to develop avian transgenic technology as a novel platform for the efficient, cost-effective manufacturing of protein drugs
This article was originally published on Laboratorytalk on 25 Jun 2003 at 8.00am (UK)
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The agreement provides Viragen with an option to acquire an exclusive worldwide license for proprietary gene transfer vectors, biotechnology tools designed to transfer genes into cells at high efficiency.
Initial studies evaluating a novel use for these vectors, transfer of genes for therapeutic proteins into developing chicken embryos, have yielded successful and consistent results.
In order to produce human therapeutic proteins in avian eggs, a gene delivery method must be optimised to transfer genes for therapeutic proteins into chickens, so that subsequent generations of birds will carry the genes and express adequate quantities of the target drugs in the whites of their eggs.
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Viragen and Roslin utilised Oxford BioMedica's vector technology to conduct a proof of principle study.
The study successfully resulted in production of transgenic cockerels that pass on the introduced gene to their offspring with consistent results (germline transmission), a milestone achievement.
In the study, a 'reporter gene' was used to measure the efficiency of the vectors.
Chick embryos were transfected with the reporter gene carried by the vectors and analysis showed that 100% of the resulting male birds possessed the gene in their sperm, meaning that they were successfully transgenic.
The second stage of the study involved breeding these first generation transgenic cockerels to determine the frequency of transgenic birds in the next generation.
This resulted in successful production of transgenic male and female birds, the frequency far exceeding requirements for commercial viability.
"We continue to develop multiple technology pathways to commercialise avian transgenics, but we are very optimistic about what this agreement with Oxford BioMedica may represent", said Viragen's [resident and CEO, Robert Salisbury.
"Additional studies are ongoing to further confirm the value of this particular technology".
Roslin Institute's Helen Sang, one of the world1s foremost authorities on avian transgenics research, stated: "To evaluate the efficiency and consistency of this vector technology, we introduced the Oxford BioMedica vectors into chick embryos and raised hatched chicks for breeding.
Nine developed into adult transgenic roosters, indicating that stable transfection had been consistently achieved.
We then bred from these roosters to determine the frequency of transgenic offspring produced.
Each rooster successfully produced transgenic offspring, with frequencies ranging from 1% to 29% of the chicks hatched transgenic.
I believe that these results represent a much higher frequency of production of transgenic chickens than those presented in previously published avian transgenics data.
Even at our lowest rate, where one in 100 offspring are transgenic, we met the criteria necessary for commercial viability.
These are potentially break-through findings and we are hopeful that we will reproduce these results with the targeted expression in hens of a clinically relevant human monoclonal antibody.
These studies are ongoing." Oxford BioMedica's CEO, Alan Kingsman, stated, "We are very pleased to be associated with Viragen and Roslin in an innovative project to provide an efficient and cost-effective alternative to present drug manufacturing systems.
The avian application may represent yet another promising commercial opportunity for our gene delivery technology.
We are very excited by Dr Sang's initial results and we look forward to a long and successful relationship.".
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