|
2005/OB/21
|
OXFORD
BIOMEDICA TO CHAIR GENE AND RNAi DELIVERY PANEL AT THE BIO
2005 ANNUAL INTERNATIONAL CONVENTION
Oxford
BioMedica (LSE: OXB), the leading gene therapy company, announced
today that it will chair and speak in a panel entitled “Novel
Delivery Systems for Genes and RNAi” at the BIO 2005
Annual International Convention at 9:30AM (Eastern Time) on
Monday, 20 June 2005, in Room 110A/B located in the Pennsylvania
Convention Center, Philadelphia, USA.
The session will
feature panelists from leading experts in the field and will
focus on revolutionary technologies for the delivery of genes
and RNAi for therapeutics and drug discovery. The panel will
discuss proprietary delivery technologies including lentiviral
vectors and liposomal systems. Speaker details are below:
| Chair: |
Peter
Nolan, SVP Commercial Development, Oxford BioMedica |
| Speakers: |
Klaus
Giese, CSO & VP Research, Atugen
Scott Ralph, Senior Scientist, Oxford BioMedica
Sara Cunningham, CEO, Benitec
Barry Greene, COO, Alnylam |
In this
panel discussion, Oxford BioMedica will present details on
its lentivirus-based gene delivery technology, known as LentiVector,
which is one of the most powerful technologies for the delivery
of genes and RNAi to a wide range of cell and tissue types.
The LentiVector technology has applications both in therapeutic
products and as a drug discovery tool for target validation
and the creation of targeted disease models. It has also been
shown to enhance the efficiency of making transgenic birds
and mammals. Oxford BioMedica has a comprehensive portfolio
of US and European patents that cover the LentiVector technology.
Commenting
on the upcoming Breakout Session at BIO 2005, Oxford BioMedica's
Senior Vice President Commercial Development, Peter Nolan,
said: "We look forward to showcasing our LentiVector
technology at this unparalleled international event. An increasing
number of companies are using the LentiVector technology,
which is becoming the system of choice for gene target validation
in the drug discovery process as well as for direct therapeutic
applications”.
Oxford
BioMedica representatives will be available at exhibit booth
#2311. For more information on BIO 2005, please visit www.bio.org.
-
ends -
Return to the News
|
|
Notes
| 1. |
Oxford
BioMedica |
|
Oxford BioMedica (LSE: OXB) is a biopharmaceutical
company specialising in the development
of novel gene-based therapeutics with a
focus on the areas of oncology and neurotherapy.
The Company was established in 1995 as a
spin out from Oxford University, and is
listed on the London Stock Exchange.
Oxford
BioMedica has core expertise in gene delivery,
as well as in-house clinical, regulatory
and manufacturing know-how. In oncology,
the pipeline includes an immunotherapy and
a gene therapy in multiple Phase II trials,
and a preclinical targeted antibody therapy
in collaboration with Wyeth. In neurotherapy,
the Company’s lead product is a gene
therapy for Parkinson’s disease, which
is expected to enter clinical trials in
early 2006, and four further preclinical
candidates. The Company is underpinned by
over 80 patent families, which represent
one of the broadest patent estates in the
field.
The
Company has a staff of approximately 65
split between its main facilities in Oxford
and its wholly owned subsidiary, BioMedica
Inc, in San Diego, California. Oxford BioMedica
has corporate collaborations with Wyeth,
Intervet, Amersham, Viragen, MolMed and
Kiadis; and has licensed technology to a
number of companies including Merck &
Co, Biogen Idec and Pfizer.
|
| 2. |
LentiVector
technology |
|
Oxford BioMedica’s LentiVector gene
delivery technology, based on lentiviruses,
is arguably the most potent system currently
available for treating a range of diseases,
particularly those of the central nervous
system. Oxford BioMedica has shown that
its lentiviral vectors are able to deliver
genes and RNAi with high efficiency to a
variety of both dividing and non-dividing
cells, including neurons in the brain.
Oxford BioMedica has three
issued US patents and a European patent
for its LentiVector technology. These include
broad composition of matter claims and methods
of production claims for lentiviral vector
gene delivery systems of both human and
non-human origin. The patents also cover
derivatives of lentiviral vector systems
that, unlike many versions of lentiviral
vectors, have real clinical utility because
of their safety.
The Company has established
a neurotherapy pipeline of product candidates
based on its LentiVector technology, which
includes ProSavin® for Parkinson’s
disease, RetinoStat® for retinopathy,
MoNudin® for motor neuron disease, SMN1-G
for spinal muscular atrophy and Innurex®
for nerve repair. Current licensees of the
LentiVector technology include Merck &
Co, Biogen Idec and Pfizer.
|
| 3. |
RNA
interference |
| |
RNA
interference (RNAi) is a novel method of gene
silencing. RNAi may offer a new approach for
effective target validation in drug discovery
and for the development of novel therapeutics.
The discovery of RNAi is potentially a major
breakthrough since it enables specific gene
targeting "upstream" of protein
synthesis at the cellular level. Genes provide
cells with the instructions for making proteins,
and when a gene is silenced, the cell stops
making the protein specified by that gene.
One of the challenges for the development
of RNAi approaches is effective delivery,
which can be addressed using viral delivery
systems such as Oxford BioMedica’s LentiVector
technology. |
| |
| For
further information please contact:
|
|
|
Oxford BioMedica plc
Professor Alan
Kingsman, Chief Executive
Peter Nolan, SVP Commercial Development |
Tel: +44 (0)1865 783 000 |
| City/Financial
Enquiries
Lisa
Baderoon/Mark
Court/Mary-Jane
Johnson
Buchanan Communications |
Tel: +44 (0)20 7466 5000
|
Scientific/Trade
Press Enquiries
Sue
Charles, Katja
Stout, Ashley
Lilly
College Hill - Life Sciences |
Tel:
+44 (0)20 7886 8150 |
|
|
|
|
|
Top
of page
Website by College Hill - Life Sciences
|
| |
|
|
