A UBC-led team has received more than $23 million in federal funding to develop precision radiopharmaceuticals that promise to transform cancer treatment in Canada and beyond.
Radiation has been a staple of cancer treatment for decades, with approximately 50 per cent of cancer patients receiving radiation therapy at some point in their journey.
While effective, traditional radiation therapies rely on intense beams of energy shot from outside the body. These beams can kill cancer, but their use is limited to select locations, making them less suited for difficult-to-treat metastatic cancers that have spread to multiple sites.
Now, a UBC-led team of Canadian researchers has received $23.7 million in federal funding to develop a new generation of radiation therapy, known as radiopharmaceutical therapy, that delivers highly targeted doses of radiation from within.
Dr. François Bénard
The therapies work like a homing device - using specially designed molecules to seek out and deliver radioactive isotopes directly to cancer cells wherever they might be in the body. These radioactive warheads kill cancer with high precision, while causing minimal harm to surrounding healthy tissue and fewer side effects for patients.
"This is the holy grail of cancer treatment. These disease-targeting molecules circulate throughout the body, binding tightly to cancer cells in order to eliminate them with a highly localized blast of energy," explained principal investigator Dr. François Bénard, professor of radiology and associate dean at UBC's faculty of medicine, and senior executive director of the BC Cancer Research Institute, a UBC-affiliated institute of the Provincial Health Services Authority.
Made-in-Canada medicine
The multidisciplinary research team involves researchers from UBC, BC Cancer, TRIUMF, Simon Fraser University, Université Laval, Université de Sherbrooke, Western University, University of Toronto, University of Alberta and the Lawson Health Research Institute.
One of the key challenges they hope to overcome: a global shortage of radioisotopes. The worldwide supply of one promising element, actinium-225, is equivalent to only a few grains of sand-enough to treat no more than 2,000 patients a year.
Dr. Paul Schaffer
Partnering with TRIUMF-Canada's particle accelerator centre-the team will use cyclotrons to produce clinical-grade isotopes in adequate quantities to supply Canada and the world.
"Alpha-emitting isotopes like actinium-225 have tremendous potential to change how we treat cancer, and to significantly improve health outcomes for patients," said Dr. Paul Schaffer, director of TRIUMF's life sciences division. "TRIUMF is delighted to leverage its laboratory space and capabilities to ramp up and provide large quantities of rare isotopes like actinium-225, and to collaborate in the critical research taking place."
The radioisotopes are attached to targeting molecules that recognize and bind to proteins on the surface of cancer cells. Another key component, known as bifunctional chelating ligands, connects the radioactive isotope to the targeting molecule and ensures its safe transport through the body.
Dr. Caterina Ramogida
The project is designing biomolecules to target a range of cancer types, including prostate, pancreatic, breast and blood cancers.
"Radiopharmaceutical design is intrinsically modular, which gives us the flexibility to customize each drug to a specific disease target," said co-principal investigator Dr. Caterina Ramogida, assistant professor of chemistry at Simon Fraser University, joint with TRIUMF. "Using this adaptable approach, we have the potential to develop an arsenal of different drugs tailored for various types of cancer."
Bringing treatments to the clinic
By integrating Canadian expertise in oncology, radiology, nuclear physics, nuclear engineering, chemistry, biology, clinical medicine and health economics, the team hopes to bring multiple drug candidates into future clinical trials in the coming years and to accelerate their widespread adoption in Canada.
"We will establish Canada as a world leader in the field of nuclear medicine and ensure Canadians and patients around the world have access to these innovative medicines sooner," said Dr. Bénard. "These radiopharmaceuticals can significantly improve the quality of life and life expectancy of patients with cancer, particularly metastatic cancers, many of which are currently untreatable."
Cancer remains the leading cause of death in Canada with nearly one in two Canadians expected to be diagnosed with cancer during their lifetime. One in four Canadians will die from the disease.
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