Cancer-
The Disease
Cancer is a disease of
uncontrolled cell proliferation which,
left untreated, will ultimately kill the
patient. Over time, cancer tends to
spread or metastasize to other tissues
and organs of the body. Cancers are
divided into:
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Solid tumor cancers
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Hematological cancers |
 Typically,
a solid tumor cancer that is detected
early in its progression and has not
spread to other organs and tissues will
have the best prognosis. In this case,
surgical removal of the tumor may be
effective. In contrast, cancer that is
detected at a later stage may be more
difficult or impossible to cure. Even
when detected early, cancer cannot
always be cured through surgery. This
may be because the entire tumor cannot
be surgically removed or because the
cancer may already have spread to other
parts of the body through metastasis,
the spread of undetectable cancer
cells. As a result, even if a solid
cell tumors cancer is discovered at an
early stage, it may have already entered
the blood or lymphatic system and
established new tumors, consisting of
cancerous cells from the original or
primary tumor, at other locations in the
body. Cells and tumors formed at these
new sites are extremely difficult to
treat, and the prognosis of a patient
with metastasized cancer is poor. For
hematological tumors, which are already
in the blood stream or lymphatic tissue,
surgery is not an option.
Cancer
Prevalence
According to WHO (World Health
Organization) more than 10 million
people are diagnosed with cancer every
year and this incidence is expected to
increase by 50% over the next 20 years.
Cancer is the second biggest cause of
mortality and is responsible for around
6 million deaths every year- or 12% of
deaths worldwide. Despite improvements
in treatment and diagnosis in the last
50 years, there is still a great need
for new therapeutics which are:
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Better tolerated
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More effective |
Most
current chemotherapeutics have
unpleasant side-effects including
nausea, diarrhea, myelosuppression,
hair-loss and cardio toxicity.
Cancer - The Biology
Recent advances in understanding the
human genome have helped scientists to
understand the development of cancer.
Cancer is caused by a series of errors
in the genes, the most important of
which are as follows:
1. Accelerator
genes or oncogenes, which cause cells to
divide, are controlled in healthy cells
but uncontrolled in cancer cells;
2. Brake systems or suppressor genes,
which function to suppress cell
proliferation, fail;
3. Suicide or apoptotic genes, which
cause malfunctioning cells to commit
suicide, are silenced;
4. A control system that prevents a
healthy cell from dividing limitlessly
is bypassed; and
5. Through angiogenesis, the cancer cell
recruits blood supply from healthy
cells, destroys adjacent tissues and
moves or spreads throughout the body.
This produces a new metastasized tumor
in a different part of the body from the
original or primary tumor.
Redundancy of Treatment
The genes used by a cancer cell are
part of a complete network of
inter-locking mechanisms and the cancer
cell may use a number of different
pathways to develop. This redundancy
causes immense pharmaceutical problems,
as most or all pathways have to be
blocked to achieve effective treatment.
Many of the favored targets of modern
anti-cancer drug development, which
include apoptosis, metastasis, and
angiogenesis, suffer from problems of
redundancy in that they may fail to
block other potential pathways of
cancer. New methods of cancer drug
development prioritize targets that are
essential to cancer development and
therefore non-redundant. The Company
believes that its principal targets may
be non-redundant. For example,
topoisomerase enzymes are critical to
cell division and histone deacetylases
appear to be responsible for governing
the central processes by which genes are
controlled.
Resistance to Treatment
Generally, by the time a cancer
tumor is diagnosed it will be at least
one centimeter in diameter and contain
more than a billion cancer cells. The
unstable chromosomal structure of cancer
cells gives rise to mutations,
generating cellular diversity and
increasing the likelihood that one or
more cells may be resistant to one or
more cancer drugs. Resistance is a
significant problem in oncology and may
lead to relapse and the recurrence of
cancer either during treatment or at a
later stage. The widespread frequency of
resistance has historically meant, with
only one rare exception, that no single
drug has been able to cure a cancer
disease. As a result, cancer treatments
generally involve the administration of
a combination of different
chemotherapeutics, each having different
mechanisms of action and toxicity
features.
TopoTarget
actively seeks the most promising
combinations to administer its drugs to
patients.
Administration of drugs
having different toxicities allows
higher combined dosages than would
otherwise be possible. The objective in
cancer treatment is to develop drugs
that do not generate resistance, and a
non-cross resistant drug that could be
administered in effective dosages that
would kill cancer but not healthy cells,
would ultimately be the most effective.
In reality, however, resistance is a
general oncological difficulty and it is
expected that patients will continue to
be prescribed various combinations of
available drugs or treatments that may
be effective. Many oncologists believe
that cancer may ultimately become a
chronic, rather than an acute disease,
requiring ongoing treatment. Useful
links :
Products and Projects
- Pre
Clinical Pipeline
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Clinical Pipeline
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