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Professor Bernie Kraatz has developed safer, simpler and cheaper alternative to monitoring the efficiency of drugs and kinase activity (photo by Ken Jones)

New compound may lead to development of cheaper anti-cancer drugs

Safer, simpler method 鈥渃an be used perfectly well in a biomedical environment,鈥 professor says

A new compound developed at the University of Toronto Scarborough could play an important role in developing cheaper anti-cancer drugs.

Professor Bernie Kraatz, chair of the department of physical and environmental sciences at UTSC, has developed a new compound that can be used to better monitor the biochemical processes involved with a group of enzymes called protein kinases.

The prevailing approach to monitoring kinase activity involves the use of radioactive isotopes, which is costly because the isotopes are expensive to use and have a short shelf life. They are also difficult to work with because of the regulations associated with their handling and disposal.

鈥淲e wanted to find a way to get around the hurdles involved with using radioactive isotopes,鈥 says Kraatz. 鈥淗aving a compound that can be used in live cells is important because it can help clinicians better monitor kinase activity and to determine if a drug they鈥檙e administering is effective in terms of regulating kinase activity.鈥

Protein kinases play an essential role in energy transfer within all living things including controlling cell division, growth and death while also regulating metabolic pathways and even cell communication. If protein kinase activity is not regulated properly it can lead to certain diseases, including cancer.

Kraatz鈥檚 team was able to develop a way to monitor the activity of protein kinase 鈥 in this case a sarcoma-related kinase 鈥 by using a redox label rather than a radioactive label. A redox label is a compound that provides an electrical signal that can be detected very accurately. The result is a safer, simpler and cheaper alternative to monitoring the efficiency of drugs and kinase activity.

鈥淐hemists often come up with wonderful models and reactions but translating those into a biomedical environment can be very difficult,鈥 says Kraatz. 鈥淲e were able to take a fantastic label that can be used perfectly well in a biomedical environment.鈥

Another benefit of the compound developed by Kraatz and his team is that a fluorescence label can be attached to it, which gives off light that can be detected when excited. This is beneficial because it can produce an additional readout for clinicians trying to understand kinase activity or determine the effectiveness of a drug.

The research, which received funding from the Natural Sciences and Engineering Research Council of Canada, is available online in .

Don Campbell is a writer with the University of Toronto Scarborough.

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