Data supporting three Antisoma programmes presented at AACR
London, UK, and Los Angeles, CA: 16 April 2007- Antisoma announces
that preclinical data supporting three of its drugs are presented
this week at the Annual Meeting of the American Association of Cancer
Research (AACR).
AS1404-Avastin-paclitaxel triple combination highly effective
Antisoma's scientists have for the first time evaluated a triple
combination of the Company's vascular disrupting agent, AS1404, the
anti-angiogenic Avastin and the chemotherapy drug paclitaxel. The
triple combination had powerful and synergistic (more than additive)
anti-tumour effects in a human lung cancer xenograft model. Moreover,
addition of Avastin and paclitaxel to AS1404 did not increase
toxicity.
These observations build on previous xenograft findings showing a
synergistic effect with an AS1404-paclitaxel combination. That effect
translated into a substantial survival benefit in a phase II trial in
non-small cell lung cancer. Preparations are being made for a pivotal
phase III trial combining AS1404 with chemotherapy in lung cancer.
The market opportunity in this setting is large, and would be further
extended if AS1404 also proved effective when added to an
Avastin-chemotherapy combination.
Synergistic effect of AS1404 combined with Erbitux
In a second combination study, AS1404 showed synergistic anti-tumour
effects with Erbitux in a lung cancer model. These findings, together
with the Avastin data, show that AS1404 has potential in combination
with newer, targeted therapies as well as longer established
treatments such as chemotherapies.
Broad potential of AS1411 alone and in combination
New data show that the aptamer drug AS1411 kills cells from a wide
variety of cancer cell lines. These include lines representing the
four most common cancers: lung, breast, prostate and colorectal; as
well as renal, gastric, pancreatic, melanoma, glioblastoma and
certain blood cancer lines. Doses lethal to cancer cells had no
effect on a fibroblast cell line representing normal, healthy tissue.
Separate experiments highlight the potential to combine AS1411 with
other treatments. When AS1411 was used together with paclitaxel or
cytarabine, synergistic killing was seen in a number of cancer cell
lines.
New light is shed on the anti-cancer action of AS1411. The drug
clearly induces apoptosis (programmed cell death). There are,
however, differences from the killing pattern seen with many
cytotoxic drugs, which generally achieve their maximum effect
rapidly. By contrast, AS1411 acts more slowly, continuing to cause
further cell death over a period of days.
AS1411 has completed phase I development, where it was shown to be
very well-tolerated and produced two objective responses in
late-stage renal cancer patients. Phase II trials in renal cancer and
acute myeloid leukaemia (AML) are now planned and the drug may
ultimately have potential against a variety of solid and blood
cancers.
Preclinical support for AS1409 trial plans
Antisoma recently announced that its forthcoming phase I trial of
AS1409, an antibody-cytokine fusion protein, would enrol patients
with renal cancer and melanoma. An AACR poster presents the data
which supported this choice, showing strong expression of the drug's
target in both of these cancer types.
Glyn Edwards, Antisoma's CEO, said: "Our AACR presentations
illustrate the strength and breadth of our pipeline and highlight a
number of ways to further expand the commercial opportunities for our
key products, AS1404 and AS1411."
Copies of all the Antisoma posters are available at www.antisoma.com
Enquiries:
Glyn Edwards, CEO
Daniel Elger, Director of
Communications +44 (0)20 8799 8200
Antisoma plc
Mark Court/Lisa Baderoon/Rebecca Skye Dietrich +44
(0)20 7466 5000
Buchanan Communications
Brian Korb
The Trout
Group +1
646 378 2923
Except for the historical information presented, certain matters
discussed in this statement are forward looking statements that are
subject to a number of risks and uncertainties that could cause
actual results to differ materially from results, performance or
achievements expressed or implied by such statements. These risks and
uncertainties may be associated with product discovery and
development, including statements regarding the company's clinical
development programmes, the expected timing of clinical trials and
regulatory filings. Such statements are based on management's current
expectations, but actual results may differ materially.
Notes for Editors:
AS1404
AS1404 (DMXAA) is a small-molecule vascular disrupting agent which
targets the blood vessels that nourish tumours. The drug was
discovered by Professors Bruce Baguley and William Denny and their
teams at the Auckland Cancer Society Research Centre, University of
Auckland, New Zealand. It was in-licensed by Antisoma from Cancer
Research Ventures Limited (now Cancer Research Technology), the
development and commercialisation company of the Cancer Research
Campaign (now Cancer Research UK), in August 2001. CRUK had supported
two phase I studies in the UK and New Zealand. AS1404 has shown a
substantial survival benefit in patients with non-small cell lung
cancer when added to paclitaxel-based chemotherapy in a randomised
phase II study. Initial response findings from other phase II studies
in ovarian and prostate cancers have also been positive.
AS1411
Aptamers are short pieces of DNA or RNA that can fold into stable,
three-dimensional structures capable of interacting with particular
target proteins. AS1411 is the first aptamer to be tested as a
treatment for cancer. It binds to the protein nucleolin, which is
found on the surface of cancer cells. It is then internalised and has
been shown to kill cancer cells from a variety of cell lines. The
drug has also shown anti-cancer effects in animal models and
promising signs of anti-cancer activity in the clinic. AS1411 was
originally developed by Dr Paula Bates, Dr John Trent and Prof.
Donald Miller at the University of Alabama and then at the University
of Louisville. Antisoma added AS1411 to its pipeline when it acquired
the Louisville-based company Aptamera Inc. in February 2005.
AS1409
AS1409 is a fusion protein with two components. One is the cytokine
IL12, which is known to have anti-cancer effects. The other is an
antibody that binds to EDB fibronectin, a protein associated with
tumour blood vessels in a wide range of cancers. AS1409 is designed
to be a targeted therapy that delivers IL12 specifically to tumours.
Xenograft studies in mice with prostate, colorectal and skin cancers
have shown that AS1409 blocks cancer growth more effectively than an
equivalent dose of untargeted IL12. AS1409 is also expected to cause
fewer side effects than IL12 alone. AS1409 was originally developed
in collaboration with EMD-Lexigen.
Background on Antisoma
Based in London, UK, Antisoma is a biopharmaceutical company that
develops novel products for the treatment of cancer. Antisoma fills
its development pipeline by acquiring promising new product
candidates from internationally recognised academic or cancer
research institutions. Its core activity is the preclinical and
clinical development of these drug candidates. Please visit
www.antisoma.co.uk for further information about Antisoma.
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