How alcohol abuse damages decision-making brain circuits

Researchers have demonstrated that heavy alcohol use can damage brain circuits critical for decision-making in rats, leading to long-term behavioral issues.
The study found that even after a monthslong withdrawal period, rats exposed to high amounts of alcohol exhibited poor decision-making during a complex task.
The researchers linked the behavioral difficulties to dramatic functional transformations in the dorsomedial striatum, a part of the brain critical for decision-making, which caused alcohol-exposed rats to process information less effectively.
The study suggests that long-term alcohol dependence can impair cognition and neural function, even after withdrawal, which may contribute to high relapse rates among people addicted to alcohol.
The findings provide a new model for understanding the cognitive changes associated with alcohol use disorder in humans and highlight the need for further research into the effects of alcohol on brain function, particularly in females.

A person holds a glass of alcohol as red and blue light illuminate the scene.

For the first time, researchers have demonstrated in an animal how heavy alcohol use leads to long-term behavioral issues by damaging brain circuits critical for decision-making.

Rats exposed to high amounts of alcohol exhibited poor decision-making during a complex task even after a monthslong withdrawal period. Key areas of their brains had undergone dramatic functional changes compared to healthy rats.

The work in Science AdvancesxA0provides a new explanation of alcohol’s long-term effects on cognition.

“We now have a new model for the unfortunate cognitive changes that humans with alcohol use disorder show,” says author Patricia Janak, a Johns Hopkins University neuroscientist who studies the biology of addiction.

“We know that humans who are addicted to alcohol can show deficits in learning and decision-making that may contribute to their poor decisions related to alcohol use. We needed an animal model to better understand how chronic alcohol abuse affects the brain. Knowing what is happening in the brain of an animal when they are having these decision-making difficulties will tell us what is happening in humans.”

In experiments led by first author Yifeng Cheng, a research scientist in Janak’s lab who studies alcohol’s effects on the brain, rats received very high alcohol exposure for a month. Then after a withdrawal period of nearly three months, the rats were given a reward-based decision-making test along with a control group of rats that had not been exposed to alcohol.

To get a reward, rats were given a choice of two levers. Pressing one lever led to a higher likelihood of reward than pressing the other lever. Rats easily learn which lever results in the most reward, so the researchers complicated things by every few minutes switching which lever had the highest reward likelihood. To get the most reward, a rat should rapidly change its behavior every time it figures out that the reward likelihood has changed.

It was a difficult task that required memory and strategy. The alcohol-exposed rats performed considerably worse.

Previous experiments in animals weren’t comparable to humans with alcohol use disorder because the animals didn’t demonstrate deficits in rapid decision-making. The team believes this was because tasks in earlier experiments were too easy.

“Our experiment was quite challenging, and the alcohol-exposed rats just couldn’t do it as well,” Janak says. “When the right answer was constantly changing, the control rats made the best decisions faster. They were more strategic. And when we looked at their brains, the control rats’ decision-related neural signals were stronger.”

The team linked the behavioral difficulties to dramatic functional transformations in the dorsomedial striatum, a part of the brain critical for decision-making. The alcohol had damaged neural circuits causing alcohol-exposed rats to process information less effectively.

One surprise was how long alcohol dependence impairs cognition and neural function, even after withdrawal.

“This may give us insight into why relapse rates for people addicted to alcohol are so high,” Janak says. “Alcohol-induced neural deficits may contribute to decisions to drink even after going to rehab. We can clearly demonstrate these deficits can be long-lasting.”

The team only found the behavioral and neural impairments in male rats. The team does not believe this suggests female rats are immune from the effects of alcohol, but that there could be sex-related sensitivities in long-term alcohol effects on brain function.

The researchers next hope to explore how alcoholism affects other areas of the brain that interact with the dorsomedial striatum, and what might be causing the differences between males and females.

Additional authors are from Johns Hopkins and the National Institutes of Health.

Support for this work came from the National Institutes of Health; the Intramural Research Program of the National Institute of Mental Health; and a Kavli NDI Fellowship.

Source: Johns Hopkins University

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Q. What did researchers discover about how heavy alcohol use affects decision-making brain circuits?

A. Researchers found that rats exposed to high amounts of alcohol exhibited poor decision-making during a complex task even after a monthslong withdrawal period.

Q. How long did the rats have to be exposed to alcohol before they showed behavioral issues?

A. The rats received very high alcohol exposure for a month, and then underwent a withdrawal period of nearly three months.

Q. What was the reward-based decision-making test used in the experiment?

A. The test involved giving rats a choice of two levers, with pressing one lever leading to a higher likelihood of reward than pressing the other lever. The task required memory and strategy.

Q. Why did previous animal experiments on alcohol use disorder not demonstrate deficits in rapid decision-making?

A. Previous tasks were too easy, which may have masked the effects of alcohol on decision-making.

Q. What part of the brain was linked to the behavioral difficulties observed in the rats?

A. The dorsomedial striatum, a critical area for decision-making, was found to be damaged by alcohol exposure.

Q. How long did the neural impairments caused by alcohol last even after withdrawal?

A. The impairments were found to be long-lasting, even after a nearly three-month withdrawal period.

Q. Did the researchers find any sex-related differences in how alcohol affects brain function?

A. While they only found behavioral and neural impairments in male rats, they do not believe this suggests female rats are immune from the effects of alcohol.

Q. What might be contributing to high relapse rates for people addicted to alcohol?

A. The researchers suggest that alcohol-induced neural deficits may contribute to decisions to drink even after going to rehab.

Q. What is the next step for the research team?

A. They plan to explore how alcoholism affects other areas of the brain that interact with the dorsomedial striatum, and what might be causing differences between males and females.

Q. Who supported this research?

A. The work was supported by the National Institutes of Health; the Intramural Research Program of the National Institute of Mental Health; and a Kavli NDI Fellowship.