|
New
York
company
to
develop
Ohio
University
cancer
drug
discovery
Investors
finance
further
testing
of
promising
treatment
for
ovarian
cancer
Athens, Ohio (Feb. 1,
2011) -- New York-based company
Phosplatin Therapeutics (pronounced
foss-Plah-ten) has licensed a new class
of anti-cancer compounds developed at
Ohio University that could lead to
a new chemotherapy treatment for ovarian
cancer and other solid tumors.
Professor Rathindra Bose, the
institution’s vice president for
research and dean of the Graduate
College, designed and conducted the
studies on the new compounds, which have
successfully and safely inhibited
ovarian cancer tumor progression in
mice.
The
compounds, called phosphaplatins,
exhibit evidence of three crucial
anti-cancer properties governed by
genetic signals: inducing cell death in
cancer cells, reducing the tumor’s
demand for blood and nutrients to
support its growth and preventing the
spread of tumor cells. Platinum has
historically been one of the most potent
classes of chemotherapy drugs, but is
also known to have severe toxic effects
on the body which limit its use.
Bose's compounds −− a combination of
phosphate and platinum −− activate
specific genes, promote expression of
trans-membrane proteins of cancer cells
and transmit a set of signals to the
interior of the cells, thereby killing
them and preventing spread of the
disease without damaging DNA in the cell
nuclei. The compounds were also designed
to overcome some patients' resistance to
platinum chemotherapies and to remain
more stable in the body so they are not
bound to proteins, a common cause of
toxicity.
Phosphaplatins have demonstrated
potential to be more effective and more
targeted drugs, which create fewer side
effects in patients. Studies have shown
that the phosphaplatins can kill ovarian
cancer cells, including cells resistant
to conventional drugs, at a fraction of
the dosage, but at equal or greater
potency.
"Scientifically speaking, this is a
paradigm shift for designing platinum
cancer therapeutics by targeting
multiple pathways to control growth,
inhibit spreading and specifically kill
cancer cells without binding DNA," Bose
said. "Our compound is unique in
displaying all three properties in
killing cancer cells and controlling
their proliferation."
Robert
Fallon, chief executive officer of
Phosplatin Therapeutics, said he found
early test results compelling enough to
gather founding investors and establish
the company last year.
"Dr.
Bose has figured out a way to design a
compound with the potency of successful
platinum therapies without the commonly
known damaging effects," said Fallon,
who also serves as a trustee on the Ohio
University Foundation Board. "The
results of early testing are very, very
encouraging, and his understanding of
the drugs’ novel mechanism of action is
profound. I saw a need to bring this
into commercialization. When the
research is complete, the hope is we
will have a new chemotherapy drug which
can positively impact patients around
the world."
Ohio
University has a strong track record of
licensing research technology,
particularly in the area of health and
wellness. Royalty income – which totaled
$8.2 million in 2010 – is consistently
the highest of any public education
institution in Ohio, the majority
stemming from a license to Pfizer for
another drug originally discovered at
Ohio University.
"We
value our partnerships with Robert
Fallon and other visionaries who are
committed to furthering science and its
benefit to humanity," said Ohio
University President Roderick J. McDavis.
"These relationships have brought Ohio
University researchers the opportunity
to take groundbreaking research into the
marketplace, where the discoveries
elevate the human condition and support
future research initiatives."
In a
collaborative effort, Phosplatin
Therapeutics has started quarterly
payments to Ohio University that will
total $600,000 for Bose’s laboratory to
continue his work with the compounds.
The research will now focus on how
phosphaplatins work, how the drug
distributes through the body, potential
toxicity and the effects at various
doses, Bose said.
The
company, for which Bose will serve as a
scientific advisor, will then seek to
obtain an Investigational New Drug
Application through the Food and Drug
Administration (FDA) for human clinical
drug trials.
The
first drug developed for the treatment
of ovarian and testicular cancers,
cisplatin, was approved for use in 1982.
Though it's 95 percent effective, it
works best during the early stages of
the disease, and some patients develop a
resistance to it. Two drugs introduced
later, carboplatin and oxaliplatin
(which is used for colorectal cancer),
overcame some of those problems, but
still they can harm numerous organs and
bodily systems of patients, said Bose.
Unlike cisplatin, which can decompose
quickly and create additional toxic side
effects through the decomposition
products, the new compounds show no
signs of degradation after seven days,
he added.
Bose is
a professor with joint appointments in
the Department of Biomedical Sciences in
the College of Osteopathic Medicine and
the Department of Chemistry and
Biochemistry in the College of Arts and
Sciences. He also is a principal
investigator at the Edison Biotechnology
Institute, where he conducts his
research.
Bose
has been studying alternative compounds,
molecular targets, and genetic processes
for these cancers for over 20 years,
including at his previous institution,
Northern Illinois University, before his
appointments with Ohio University in
2008.
"Dr.
Bose’s work, which is the product of
years of experimentation and dedication,
illustrates the type of contributions
that faculty at public universities can
make," said Executive Vice President and
Provost Pam Benoit. "He has expanded
the realm of scientific knowledge in
important ways while helping to sow the
seeds for future discoveries through his
work with graduate students and
post-doctoral researchers."
Fallon
said he understands the attempt to
create an effective new drug is risky,
but worth the investment of time and
money.
"Regardless of the outcome, at the end
of the day we can say we have advanced
the cause of science," he said.
Media
contact: Jennifer
Krisch, media specialist, at
740-597-1939 or
krisch@ohio.edu |
