Opioids could be made safer by targeting sodium pockets: study

By The Science Advisory Board staff writers

December 5, 2022 -- Chemically linking fentanyl to the sodium pockets that exist within nerve cell receptors could block the drug's harmful side effects and still reduce pain, according to a new study.

Fentanyl, a synthetic opioid, is responsible for tens of thousands of deaths each year, but a team from the University of Southern California, Washington University, and Stanford University have demonstrated the drug could be redesigned (Nature, November 30, 2022).

The research team targeted the G-protein coupled receptors (GCPRs) because they act as signal transmitters that mediate a drug's intended effect on the brain and body. Using cryogenic electron microscopy (Cryo-EM), they studied structures of the most potent bitopic ligands in complex with mu opioid receptor (µOR) agonists like fentanyl and found key interactions between the ligand's guanidine and the key Asp2.50 residue in the Na+ site.

The lead bitopics maintain nanomolar potency and high efficacy at Gi subtypes and they show strongly reduced arrestin recruitment. However, one also showed the lowest Gz-efficacy among the panel of µOR agonists, including partial and biased, morphinan and fentanyl analogs, the researchers found.

In mice, the best bitopic ligand displayed µOR dependent antinociception with attenuated adverse effects, which supports the idea of sodium pockets as a potential target for the design of safer analgesics.

More studies are needed to prove the less harmful version of fentanyl will work in humans, but the results offer an avenue for potentially improving the safety of painkillers, the scientists said.

Fentanyl vaccine stops opioid entering the brain in rats, clearing path to human studies
A fentanyl vaccine has generated antibodies against the potent synthetic opioid in rats, pointing to a way to address opioid use disorder in humans.
$11.3M NIH grant funds national project to investigate molecular origins of pain
A new National Institutes of Health (NIH)-funded project will investigate the origins of human pain at the cellular and molecular level -- potentially...
Computational screening uncovers potential painkillers without addictive, sedation properties
University of California, San Francisco researchers have used computational screening of 301 million virtual molecules to uncover non-opioid compounds...
Research unveils opioid-receptor structure
A preclinical study shows in vitro evidence that reveals the preference of certain receptors to form homodimeric complexes and tetrameric complexes, which...
Multinational science teams develops non-opioid painkiller
A team of researchers developed a non-opioid painkiller with fewer side effects. The compound, benzyloxy-cyclopentyladenosine, is non-addictive and opens...

Copyright © 2022 scienceboard.net


Conferences
Connect
Science Advisory Board on LinkedIn
Science Advisory Board on Facebook
Science Advisory Board on Twitter