‘Daily’ cocaine use changes genes in the brain and fuels addiction, study finds
- One group of mice was given cocaine daily and the other half a saline solution
- Mice given daily cocaine had more active genes in the hippocampus, the part of the brain associated with memory, than the other group did
- Researchers say this causes drug users to associate drugs with the environment they took the drugs in, creating positive memories that lead to addiction
Chronic cocaine use could alter genes in your brain and contribute to addiction, a new study finds.
Research conducted in mice found that genes in the hippocampus, the part of the brain responsible for memories and learning, were more active when cocaine was used daily.
Scientists think that when these genes are ‘on’ and active, a drug user’s brain creates stronger links between the drug and the environment in which they take it, which creates positive memories and makes them more likely to use again.
The team, from Michigan State University, says the findings could lead to the development of therapies that target genes in combination with traditional addiction treatments.
A new study found that daily cocaine use can make genes more active in the part of the brain associated with memories and contribute to addiction. Pictured: Neurons in the hippocampus (green) expressing the FosB gene (red) after cocaine use
Opioids may be driving the American overdose epidemic, but cocaine use and deaths have also been on the rise.
Deaths related to cocaine nearly doubled from 5,892 in 2014 to 11,316 in 2016, according to a 2018 report from the Centers for Disease Control and Prevention.
Several studies have shown that the FosB gene – and similar genes related to it – encodes proteins that quickly ramp up in specific brain regions after someone uses an addictive drug like cocaine.
These brain regions are associated with memories and behavioral responses to the drugs, such as the feeling of rewards after taking it.
But it wasn’t entirely clear why or how cocaine triggered this protein influx, so the Michigan State steam set out to unravel the mystery.
If they could work out what button cocaine pushed in these brain regions, so to speak, then perhaps they could develop treatments to block the drug’s effects.
For the new study, published in the journal JNeurosci, researchers gave half of a group of mice cocaine and the other half a saline solution.
They then looked at activity levels of the FosB gene in the hippocampus in both groups.
Mice that were given cocaine daily showed an increased expression of the FosB gene compared to the control group.
Gene expression is the process by which the information – or the DNA – contained within a gene becomes a product.
This means that the gene is turned ‘on,’ activating the biological machinery that makes the protein that in turn allows positive drug-related memories to form.
But when researchers blocked changes made to the gene, the mice couldn’t form the association between cocaine and the environment where they received the drug.
‘These results offer new insights in the molecular changes that take place in the hippocampus during chronic cocaine use,’ the authors wrote.
It is hard for cocaine users to quit cold-turkey because this can lead to severe withdrawal symptoms such as agitation, anxiety depression and fatigue.
However, the researchers believe that by ‘short-circuiting’ the gene and protein that make the memory of cocaine feel so good, they might be able to help break the pattern of addiction, too.
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