~ Data demonstrates benefits of the Group’s proprietary “TRiP” system in enhancing production yields for a broad range of gene therapy vectors
Oxford, UK – 27 March 2017: Oxford BioMedica plc (LSE:Oxford Biomedica) (“Oxford BioMedica” or “the Group”), a leading gene and cell therapy group, today announces the publication of study results in the journal Nature Communications supporting the Group’s Transgene Repression in vector Production (TRiP) system.
This new vector production approach addresses a common problem of reduced yield during the manufacture of gene therapy vectors when the therapeutic gene is expressed highly in production cells. The TRiP system suppresses this undesirable expression without compromising expression of the therapeutic protein in target cells. The findings published in the peer-reviewed article demonstrate significant gains in the production yields of a broad range of gene therapy vectors, including those based on lentivirus, adenovirus and AAV. We believe that the improved yield facilitated by the TRiP system will allow significant reduction in production cost of the viral vector needed for a patient dose and also unlock the development for gene therapies that are currently made impractical due to this common problem.
The publication in Nature Communications is entitled: “Enhancing titres of therapeutic viral vectors using the Transgene Repression in Vector Production (TRiP) system” DOI: 10.1038/NCOMMS14834.
The TRiP system is subject to patent applications derived from WO 2015/092440, which will expire in December 2034.
Commenting on the publication, John Dawson, Chief Executive Officer of Oxford BioMedica, said: “The data published demonstrates Oxford BioMedica’s innovative capabilities and our commitment to invest in our technology to maintain our leading position in vector manufacture for gene therapy products. As demand for vectors grows with the introduction of gene and cell therapy products, we are confident there will be significant demand from third parties to licence the rights to utilise our TRiP technology.”
~ Data demonstrates benefits of the Group’s proprietary “TRiP” system in enhancing production yields for a broad range of gene therapy vectors
Oxford, UK – 27 March 2017: Oxford BioMedica plc (LSE:Oxford Biomedica) (“Oxford BioMedica” or “the Group”), a leading gene and cell therapy group, today announces the publication of study results in the journal Nature Communications supporting the Group’s Transgene Repression in vector Production (TRiP) system.
This new vector production approach addresses a common problem of reduced yield during the manufacture of gene therapy vectors when the therapeutic gene is expressed highly in production cells. The TRiP system suppresses this undesirable expression without compromising expression of the therapeutic protein in target cells. The findings published in the peer-reviewed article demonstrate significant gains in the production yields of a broad range of gene therapy vectors, including those based on lentivirus, adenovirus and AAV. We believe that the improved yield facilitated by the TRiP system will allow significant reduction in production cost of the viral vector needed for a patient dose and also unlock the development for gene therapies that are currently made impractical due to this common problem.
The publication in Nature Communications is entitled: “Enhancing titres of therapeutic viral vectors using the Transgene Repression in Vector Production (TRiP) system” DOI: 10.1038/NCOMMS14834.
The TRiP system is subject to patent applications derived from WO 2015/092440, which will expire in December 2034.
Commenting on the publication, John Dawson, Chief Executive Officer of Oxford BioMedica, said: “The data published demonstrates Oxford BioMedica’s innovative capabilities and our commitment to invest in our technology to maintain our leading position in vector manufacture for gene therapy products. As demand for vectors grows with the introduction of gene and cell therapy products, we are confident there will be significant demand from third parties to licence the rights to utilise our TRiP technology.”
~ Data demonstrates benefits of the Group’s proprietary “TRiP” system in enhancing production yields for a broad range of gene therapy vectors
Oxford, UK – 27 March 2017: Oxford BioMedica plc (LSE:Oxford Biomedica) (“Oxford BioMedica” or “the Group”), a leading gene and cell therapy group, today announces the publication of study results in the journal Nature Communications supporting the Group’s Transgene Repression in vector Production (TRiP) system.
This new vector production approach addresses a common problem of reduced yield during the manufacture of gene therapy vectors when the therapeutic gene is expressed highly in production cells. The TRiP system suppresses this undesirable expression without compromising expression of the therapeutic protein in target cells. The findings published in the peer-reviewed article demonstrate significant gains in the production yields of a broad range of gene therapy vectors, including those based on lentivirus, adenovirus and AAV. We believe that the improved yield facilitated by the TRiP system will allow significant reduction in production cost of the viral vector needed for a patient dose and also unlock the development for gene therapies that are currently made impractical due to this common problem.
The publication in Nature Communications is entitled: “Enhancing titres of therapeutic viral vectors using the Transgene Repression in Vector Production (TRiP) system” DOI: 10.1038/NCOMMS14834.
The TRiP system is subject to patent applications derived from WO 2015/092440, which will expire in December 2034.
Commenting on the publication, John Dawson, Chief Executive Officer of Oxford BioMedica, said: “The data published demonstrates Oxford BioMedica’s innovative capabilities and our commitment to invest in our technology to maintain our leading position in vector manufacture for gene therapy products. As demand for vectors grows with the introduction of gene and cell therapy products, we are confident there will be significant demand from third parties to licence the rights to utilise our TRiP technology.”
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~ Data demonstrates benefits of the Group’s proprietary “TRiP” system in enhancing production yields for a broad range of gene therapy vectors
Oxford, UK – 27 March 2017: Oxford BioMedica plc (LSE:Oxford Biomedica) (“Oxford BioMedica” or “the Group”), a leading gene and cell therapy group, today announces the publication of study results in the journal Nature Communications supporting the Group’s Transgene Repression in vector Production (TRiP) system.
This new vector production approach addresses a common problem of reduced yield during the manufacture of gene therapy vectors when the therapeutic gene is expressed highly in production cells. The TRiP system suppresses this undesirable expression without compromising expression of the therapeutic protein in target cells. The findings published in the peer-reviewed article demonstrate significant gains in the production yields of a broad range of gene therapy vectors, including those based on lentivirus, adenovirus and AAV. We believe that the improved yield facilitated by the TRiP system will allow significant reduction in production cost of the viral vector needed for a patient dose and also unlock the development for gene therapies that are currently made impractical due to this common problem.
The publication in Nature Communications is entitled: “Enhancing titres of therapeutic viral vectors using the Transgene Repression in Vector Production (TRiP) system” DOI: 10.1038/NCOMMS14834.
The TRiP system is subject to patent applications derived from WO 2015/092440, which will expire in December 2034.
Commenting on the publication, John Dawson, Chief Executive Officer of Oxford BioMedica, said: “The data published demonstrates Oxford BioMedica’s innovative capabilities and our commitment to invest in our technology to maintain our leading position in vector manufacture for gene therapy products. As demand for vectors grows with the introduction of gene and cell therapy products, we are confident there will be significant demand from third parties to licence the rights to utilise our TRiP technology.”
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