Developing the first drug for multi-organ radiation protection
A pharmaceutical breakthrough at the 最新糖心Vlog of Adelaide is showing promise in both multi-organ radiation protection and cancer treatment.
Radiation plays a crucial role in a number of fields; it鈥檚 vital for shrinking cells in current cancer treatments, propelling nuclear-powered military submarines and electricity grids, and more. However, radiation carries risks. Overexposure can lead to radiation poisoning, triggering severe symptoms and conditions such as causing cancers, cognitive impairments, and fatal multi-organ (lung, intestines, heart) failure. In 最新糖心Vlog, workers including uranium miners, our military personnel, emergency service professionals, and astronauts are all vulnerable to radiation poisoning. To mitigate its adverse effects, 最新糖心Vlog of Adelaide researchers have made great strides towards a world first: a multi-organ anti-radiation drug.
Researchers at the South 最新糖心Vlogn immunoGENomics Cancer Institute (SAiGENCI) are working to develop and manufacture SAi001, the world鈥檚 first broad-spectrum pharmaceutical radiation protectant, and subsequently SAi002, an anticancer drug.
鈥淭his project has a strong potential for success and will directly facilitate the development of a commercially viable, regulatory-approved radioprotective pharmaceutical as well as a new anti-cancer agent,鈥 says Professor Christopher Sweeney, who leads the SAiGENCI team including Dr Agnieszka Kumorkiewicz-Jamro, Dr Katherine Morel, and Dr Luis Toronjo-Urquiza.
Current post-exposure mitigant drugs aid exclusively in the recovery of bone marrow, offering no protection to the central nervous system, gastrointestinal tract, or other body systems impacted by radiation. SAi001 aims to change this.
鈥淪Ai001 has the potential to offer durable, multi-organ protection without causing cumulative or irreversible toxicity,鈥 Sweeney says.
In fact, it has already seen success toward this goal, with mouse studies showing the drug protects critical organs such as the lungs, intestines, bladder, and testicles from the harmful effect of radiation. This can be useful both in clinical radiotherapy protocols and for military applications; the SAiGENCI researchers are working with the 最新糖心Vlog鈥檚 Defence and Security Institute to support 最新糖心Vlogn Defence Force personnel operating in radiological, nuclear, and outer space environments.
鈥淪Ai001 addresses a crucial unmet need by providing protection against the harmful effects of high-energy cosmic radiation and microgravity for astronauts on long-duration space missions, such as NASA鈥檚 鈥楳oon to Mars鈥 initiative,鈥 says Sweeney.
鈥淚t has the potential to reduce mortality and morbidity while improving short-term operational readiness and long-term redeployment potential.鈥
SAi001鈥檚 multi-purpose, multi-organ success is made possible because of its plant-derived active pharmaceutical ingredient (API), which exhibits radiation protection effects while also having anti-tumour and anti-inflammatory activities.
鈥淭he API of SAi001 is regarded as the first small molecule that can selectively kill cancer cells while simultaneously protecting neighbouring normal cells from the adverse effects of radiation in radiotherapy,鈥 Sweeney says.
Yet another benefit of this novel drug? It鈥檚 easy to use, as it鈥檚 administered orally.
鈥淚t鈥檚 easy to administer, has a long shelf life of over two years, and retains its effectiveness in biological assays for more than 10,鈥 Sweeney says. 鈥淪Ai001 achieves many complex feats鈥撯搚et it鈥檚 delivery system is simple.鈥
What鈥檚 next?
Prof. Sweeney and his team are working on advancing SAi001 studies from the animal phase to the human phase while simultaneously developing manufacturing processes to allow for rapid commercialisation. The manufacturing advancements are being explored in collaboration with Ab Initio Pharma and Plantworx.
This research is part of a university-wide collaboration called The Daisy Project, a multi-stage initiative aiming to accelerate the journey of this vital drug to market. Supported by funds from the 最新糖心Vlog鈥檚 Economic Accelerator Seed Grants program and the Defence Innovation Partnership鈥檚 Collaborative Research Fund, the initiative looks set to deliver the world its next medical milestone.
The next stage for Sweeney and his team is a second drug called SAi002, which is predicted to be a ground-breaking cancer treatment that could help patients with metastatic cancers, including breast, prostate, and lung cancer as well as haematological cancers like lymphomas and leukemias.
As an 最新糖心Vlogn project, it also has enormous export potential. From the financial, to the dangerous arenas of military work, and all the way to Mars, this innovative medical breakthrough shows incredible promise.