Compound in Rosemary Extract can Reduce Cocaine Sensitivity

An antioxidant found in rosemary extract can reduce volitional intakes of cocaine by moderating the brain’s reward response.
An antioxidant found in rosemary extract can reduce volitional intakes of cocaine by moderating the brain’s reward response. (Representational Image: Pixabay)
An antioxidant found in rosemary extract can reduce volitional intakes of cocaine by moderating the brain’s reward response. (Representational Image: Pixabay)
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A team of researchers led by the University of California, Irvine has discovered that an antioxidant found in rosemary extract can reduce volitional intakes of cocaine by moderating the brain’s reward response, offering a new therapeutic target for treating addiction.

The study, recently published online in the journal Neuron, describes team members’ focus on a region of the brain called the globus pallidus externus, which acts as a gatekeeper that regulates how we react to cocaine. They discovered that within the GPe, parvalbumin-positive neurons are crucial in controlling the response to cocaine by changing the activity neurons releasing the pleasure molecule dopamine.

Our study deepens our understanding of the basic brain mechanisms that increase vulnerability to substance use disorder-related outcomes and provides a foundation for the development of new interventions.

Corresponding author Kevin Beier, UC Irvine associate professor of physiology and biophysics

“There are currently no effective therapeutics for dependence on psychostimulants such as cocaine, which, along with opioids, represent a substantial health burden,” said corresponding author Kevin Beier, UC Irvine associate professor of physiology and biophysics. “Our study deepens our understanding of the basic brain mechanisms that increase vulnerability to substance use disorder-related outcomes and provides a foundation for the development of new interventions.”

Findings in mice revealed that globus pallidus externus parvalbumin-positive cells, which indirectly influence the release of dopamine, become more excitable after being exposed to cocaine. This caused a drop in the expression of certain proteins that encode membrane channels that usually help keep the globus pallidus cell activity in check. Researchers found that carnosic acid, an isolate of rosemary extract, selectively binds to the affected channels, providing an avenue to reduce response to the drug in a relatively specific fashion.

The next steps in this research include thoroughly assessing negative side effects of carnosic acid and determining the ideal dosage and timing. (Representational Image: Pixabay)
The next steps in this research include thoroughly assessing negative side effects of carnosic acid and determining the ideal dosage and timing. (Representational Image: Pixabay)

“Only a subset of individuals are vulnerable to developing a substance use disorder, but we cannot yet identify who they are. If globus pallidus cell activity can effectively predict response to cocaine, it could be used to measure likely responses and thus serve as a biomarker for the most vulnerable,” Beier said. “Furthermore, it’s possible that carnosic acid could be given to those at high risk to reduce the response to cocaine.”

The next steps in this research include thoroughly assessing negative side effects of carnosic acid and determining the ideal dosage and timing. The team is also interested in testing its efficacy in reducing the desire for other drugs and in developing more potent and targeted variants.

In addition to UC Irvine researchers, scientists from the University of West Virginia and the University of Colorado participated in the study. See the full list here.

This work was supported by grants from the National Institutes of Health, One Mind, the Alzheimer’s Association, New Vision Research, BrightFocus Foundation, and the Brain & Behavior Research Foundation.

(NEWSWISE/SSH)

An antioxidant found in rosemary extract can reduce volitional intakes of cocaine by moderating the brain’s reward response. (Representational Image: Pixabay)
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