Study reveals new method of preparing imaging agents

Study reveals new method of preparing imaging agents
Isotopic labeling of α-amino acids. Credit: Nature Chemistry (2022). DOI: 10.1038/s41557-022-01074-0

Dr. Benjamin Rotstein and collaborators unveil an operationally simple method to prepare carbon isotope-labeled versions of drugs and diagnostics.

The development of new pharmaceuticals relies on the ability of scientists to design elegantly specific drugs for targeted clinical trials. And the isotopic labeling of drug candidates in research labs is crucial in this overall effort.

In a new study, Dr. Benjamin Rotstein's lab at the uOttawa Faculty of Medicine has collaborated with colleagues to unveil an operationally simple method to prepare carbon isotope-labeled versions of drugs and diagnostics. They developed a method to exchange a in —building blocks of proteins that are also used to prepare molecules—for its isotope.

"This is really important in because we want to know where the drug goes in the body, how is it metabolized and eliminated so we can plan appropriate dosing and toxicity studies," says Dr. Rotstein, an associate professor in the Faculty of Medicine's Department of Biochemistry, Microbiology and Immunology.

The work was described in a paper in Nature Chemistry.

Dr. Rotstein's lab initially designed their experiments to work like a catalyst that our bodies use: pyridoxal phosphate, which removes the from amino acids and is the active form of vitamin B-6. But he says they wanted to make it run in reverse, and it turned out the mechanism was a little different than they initially expected.

"We're actually adding , then removing the acid. So it's a different mechanism that allows us to consider even better catalysts and expanding the scope further beyond amino acids," he says.

The research was done in collaboration with University of Alberta colleagues and chemists at Sanofi, the French pharmaceutical company. Dr. Rotstein's lab did the carbon-11 studies and worked with these collaborators to unveil the mechanism of the reaction. His lab uses carbon-11 because it's radioactive in a way that works well for medical imaging.

Dr. Rotstein and his team are now studying how to make the reaction produce only one "mirror-image" version of amino acids so that researchers won't need to separate them after the fact.

He says they are especially excited about using carbon-11 amino acids to measure the rate that our bodies are producing proteins because this can be an indicator of disease.

"We're also using these in imaging studies now to learn about metabolism and protein synthesis rates in different tissues," says Dr. Rotstein, who is also director of the Molecular Imaging Probes and Radiochemistry Laboratory at the University of Ottawa Heart Institute.

More information: Odey Bsharat et al, Aldehyde-catalysed carboxylate exchange in α-amino acids with isotopically labelled CO2, Nature Chemistry (2022). DOI: 10.1038/s41557-022-01074-0

Journal information: Nature Chemistry

Citation: Study reveals new method of preparing imaging agents (2022, November 22) retrieved 30 May 2024 from
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