Pascal Biosciences Inc. (TSX.V:PAS) (“Pascal” or the “Company”), a
drug discovery and development company, is pleased to announce that
the Company has entered into an exclusive license agreement with
the University of Washington (UW) in Seattle to develop a
cannabinoid-based product for the treatment of glioblastoma
multiform and brain metastases. The program, developed in the lab
of renowned cannabis researcher Dr. Nephi Stella, founder and
co-director of the UW Center for Cannabis Research, includes a lead
therapeutic, ST-403. Pascal plans to begin human clinical studies
of ST-403 in 2019.
“I believe the ST-403 program has great potential to help
patients diagnosed with glioblastoma, brain metastases and other
devastating cancers,” said Dr. Stella. “I’m excited to have Pascal
advancing this promising program and, furthermore, I am honoured to
help with the future development of Pascal’s broad immune-oncology
program, as I believe cannabinoid-based compounds have great
potential when combined with checkpoint inhibitors.”
Dr. Stella began developing ST compounds based on scientific
reports that cannabis-derived compounds may have benefit for
glioblastoma, and he collaborated with Associate Professor Dr.
Philippe Diaz of the University of Montana (UM) Department of
Biomedical & Pharmaceutical Sciences. CoMotion, UW’s
collaborative innovation hub, supported the work through two
CoMotion Innovation Gap Fund grants and letters of support for a
variety of other funding. CoMotion and joint owner (University of
Montana), worked together in order to secure exclusive rights to
license the compound to the company.
ST compounds utilize a unique mechanism of action to kill cancer
cells that may prove synergistic when used in combination with
chemotherapeutics. In a preclinical model of glioblastoma, mice are
treated with radiation and temozolomide, which is the standard
of care for human patients; ST compounds synergize with these
treatments to reduce tumour size and extend life. These compounds
also demonstrated a favourable safety profile. These results
support Pascal’s plans to begin clinical trials with ST-403 in
2019.
“ST-403 is a very promising therapeutic candidate that is an
ideal fit with our cannabinoid immune activation program that we
announced in February,” said Dr. Patrick Gray, CEO of Pascal. “Both
programs have great potential in treating cancer, and we are
fortunate to have access to and support from Dr. Stella to help
facilitate the advancement of this great science into meaningful
therapeutics for cancer.”
Pascal’s exclusive license agreement with the UW covers the
ST-403 program, all related compounds, and a strong patent
portfolio. If ST-403 has demonstrated benefit for glioblastoma
patients, its commercial potential is significant: Temozolomide is
now off patent protection, but previously had sales over $1B per
year.
About ST-403
ST-403 is a mitosis inhibitor that blocks cell division. Drugs
of this class disrupt microtubules, which are the structures that
pull chromosomes apart during cell division. There are several
mitotic inhibitors approved for cancer treatment, including
paclitaxel and vinblastine, and they have substantial benefit on
solid tumours when combined with other chemotherapeutics. However,
unlike ST-403, none of these agents cross the blood brain barrier
and therefore have no activity on glioblastoma or other brain
cancers.
About Glioblastoma
Glioblastoma multiforme is a devastating disease for patients
due to the high rate of recurrence, limited treatment options and
aggressive nature of the disease. According to the National Brain
Tumor Society, glioblastoma strikes about 15,000 patients each year
in North America with a median survival rate of 12 to 17 months.
Therapies to treat glioblastoma are limited to surgery, radiation
and chemotherapy, and more recently tumour treating fields. The
only chemotherapeutic approved for glioblastoma is temozolomide,
which was developed over 50 years ago and extends survival by only
two months. Temozolomide kills tumour cells by causing DNA damage,
a mechanism that is different from ST compounds.
About Pascal Biosciences Inc. Pascal
Biosciences is a biotechnology company focused on advancing
innovative approaches for the treatment of cancer including
cannabinoid-based therapeutics and targeted therapies. The
company’s leading cannabinoid portfolio comprises a small molecule
therapeutic, ST-403, that is advancing into clinical trials for the
treatment of glioblastoma, and an immuno-stimulatory molecule. In
addition, Pascal Biosciences is developing a B-cell targeted
antibody for acute lymphoblastic leukemia and an antibody for
calcium channels expressed by the immune system. For more
information, visit www.pascalbiosciences.com.
About the University of Washington and
CoMotion
Recently ranked by Reuters as the #1 most innovative public
university in the U.S., the University of Washington (UW) is a
leading recipient of federal funding research, producing
innovations that have the power to change the world—from biofuel
alternatives, to more effective treatments for Alzheimer’s disease
and brain cancer, to purification technology for drinking water in
the developing world.
CoMotion at the UW is the collaborative innovation hub dedicated
to expanding the economic and societal impact of the UW community.
By developing and connecting to local and global innovation
ecosystems, CoMotion helps innovators achieve the greatest impact
from their ideas and discoveries.
About the University of Montana
The University of Montana receives approximately $100M in
research funding annually in areas intended for impactful societal
change. Areas of national recognition include ecology, the
environment, wildlife biology, and health and medicine.
On Behalf of the Board of Directors Dr. Patrick W. Gray,
President & CEO
Investors: invest@pascalbiosciences.com
Media Contact: Julie
Rathbuninfo@pascalbiosciences.com Tel: 206-769-9219
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