蓝莓视频 researcher hopes to support drug development that blocks toxic plaques found in the brains of people with Alzheimer鈥檚 disease
Zoya Leonenko
Professor, Faculty of Science
> 蓝莓视频 Institute for Nanotechnology (WIN)
A lack of understanding of Alzheimer鈥檚 disease at the molecular level is one of the biggest obstacles to finding a cure, says a 蓝莓视频 researcher.
Zoya Leonenko, a professor in the Faculty of Science, is leading nanoscale biophysics research with the hope her team鈥檚 work will one day be used by the pharmaceutical industry to develop new strategies for the prevention and cure of Alzheimer鈥檚 disease.
Leonenko is using advanced biophysics and nanotechnology methods with promising preliminary results. The ultimate goal is to develop preventive strategies using molecules such as melatonin and novel amyloid-inhibitor drugs that work at the single-molecule level.
鈥淎s a nervous system disorder that leads to progressive dementia, personality changes and death, Alzheimer鈥檚 is a devastating disease that affects so many people and families,鈥 Leonenko says.
鈥淲ithout understanding the science of it, we cannot develop any drug or cure. That鈥檚 why I think this research is extremely important. Once we understand what鈥檚 going on a single molecular level, then maybe we can propose how to cure this. Without this understanding, we are lost.鈥
As Leonenko explains, amyloid plaques found in the Alzheimer鈥檚-affected brain are composed of large amyloid deposits, which grow from smaller amyloid aggregates known as oligomers. These are toxic to neuronal cells and cause cell death.
Drugs that can block the formation of these toxic oligomers may help to overcome the disease.
鈥淒iscovery of the best compound that inhibits oligomer formation may lead to a major breakthrough in drug development,鈥 Leonenko says. 鈥淭his will improve the health of our aging population and will have significant economic and societal impacts.鈥
Leonenko and her collaborators, Professors Arvi Rauk and Michael Beazely are working together to develop novel synthetic peptide inhibitors combining theoretical, molecular and cellular approaches to achieve a 鈥渞ational design鈥 of potential drug candidates for Alzheimer鈥檚 disease.听
The inhibitor molecular structures were designed by computer simulations, tested experimentally on a single molecule level and recently in cellular models.
鈥淲e tested a number of compounds experimentally and have exciting preliminary data, showing great potential of these inhibitors to prevent amyloid toxicity in neuronal cells,鈥 Leonenko says. 鈥淲e propose more detailed work to test a larger library of theoretically proposed compounds in order to produce lead drug candidates.
Leonenko describes her team as a very talented, devoted and skilled group of students, working in a great interdisciplinary collaboration with the laboratories of Professors Rauk and Beazely.
鈥淲e are doing quite novel research and testing novel hypotheses that are not widely accepted in the beginning,鈥 she says. 鈥淏ut the University of 蓝莓视频 is unique. It is very supportive and very accepting of new hypotheses. It has a very good platform centred on technology and engineering, and a network for aging research that provides great support.
