Scientists Uncover Genes Associated With Heroin-Addiction Relapse

While studying the brains of heroin-addicted rats, scientists have identified those genes that may be involved in precipitating a relapse.

A study of the brains of heroin-addicted rats has led scientists to identifying genes that may be involved in precipitating a relapse.

Kara Kuntz-Melcavage, from Pennsylvania State University College of Medicine, USA, and colleagues have discovered a group of genes whose expression is significantly altered following exposure to drug paraphernalia after an enforced 'cold-turkey' period.

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"A number of gene expression studies have investigated changes induced by drug exposure, but few reports describe changes associated with the mental state that leads to relapse," Kuntz-Melcavage said.

"We identified 66 genes involved in the relapse response, including some that are important for neuroplasticity, and through that role may impact learning and behavior," Kuntz-Melcavage added.

In the study, the researchers attached rats to a drug supply that for 3 hours each day delivered heroin into their jugular veins when they licked a particular empty spout.

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Over a two-week period, these animals were free to self-administer heroin, while control rats to whom they were linked received saline instead.

One group of addicted rats and their yoked non-addicted partners were then kept without heroin for two weeks before being re-exposed to the spout, which no longer yielded drug infusions.

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After 90 minutes in this narcotic-associated environment, during which the addicted rats compulsively returned to lick the unrewarding empty spout, they and their yoked control mates were humanely killed and gene expression in their brains was studied.

By comparing the gene expression in the drug-seeking animals with that in a second group of addicted rats re-exposed to the narcotic environment after only one day of abstinence, and with the saline-yoked controls, the researchers were able to identify genes involved in relapse behaviour.

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"The session with the inactive spout served not only to provide an opportunity to observe drug-seeking behaviour, but also mimicked a real-life situation in which environmental cues precipitate relapse behaviour following an extended period of abstinence," Kuntz-Melcavage said.

The study has been published in the open access journal BMC Neuroscience. (ANI)

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