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New technique shows in detail where drug molecules hit their targets in the body

Byindianadmin

Apr 30, 2022
New technique shows in detail where drug molecules hit their targets in the body
A team at Scripps Research invented a new method, called CATCH, that shows how drugs hit their targets in the body. Cells targeted by a drug (pargyline shown in cyan) can be identified by multiple rounds of immunolabeling (red showing neurons; yellow showing dopaminergic/noradrenergic neurons; blue showing cell nuclei). Credit: Scripps Research

Scientists at Scripps Research have invented a way to image, across different tissues and with higher precision than ever before, where drugs bind to their targets in the body. The new method could become a routine tool in drug development.

Described in a paper in Cell on April 27, 2022, the new method, called CATCH, attaches fluorescent tags to drug molecules and uses chemical techniques to improve the fluorescent signal. The researchers demonstrated the method with several different experimental drugs, revealing where—even within individual cells—the drug molecules hit their targets.

“This method ultimately should allow us, for the first time, to see relatively easily why one drug is more potent than another, or why one has a particular side effect while another one doesn’t,” says study senior author Li Ye, Ph.D., assistant professor of neuroscience at Scripps Research and The Abide-Vividion Chair in Chemistry and Chemical Biology.

The study’s first author, Zhengyuan Pang, is a graduate student in the Ye lab. The study also was a close collaboration with the laboratory of Ben Cravatt, Ph.D., Gilula Chair of Chemical Biology at Scripps Research.

“The unique environment at Scripps Research, where biologists routinely work together with chemists, is what made the development of this technique possible,” Ye says.

Understanding where drug molecules bind their targets to exert their therapeutic effects—and side effects—is a basic part of drug development. However, drug-target interaction studies traditionally have involved relatively imprecise methods, such as bulk analyses of drug-molecule concentration in entire organs.

The CATCH method involves the insertion of tiny chemical handles into drug molecules. These distinct chemical handles don’t react with anything else in the body, but do allow the addition of fluorescent tags after the drug molecules have bound to their targets. In part because human or animal tissue tends to diffuse and block the light from these fluorescent tags, Ye and his team combined the tagging process with a technique that makes tissue relatively transparent.

In this initial study, the researchers optimized and evaluated their method for “covalent drugs,” which bind irreversibly to their targets with stable chemical bonds known as covalent bonds. This irreversibility of binding makes it particularly important to verify that such drugs are hitting their intended targets.

The scientists first evaluated several covalent inhibitors of an enzyme in the brain called fatty acid amide hydrolase (FAAH). FAAH inhibitors have the effect of boosting levels of cannabinoid molecules, including the “bliss molecule” anandamide, and are being investigated as treatments for pain and mood disorders. The scientists were able to image, at the single-cell level, where these inhibitors hit their targets within large volumes

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