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Author Topic: Morphine Makes Lasting And Surprising Brain Alterations  (Read 3720 times)

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Morphine Makes Lasting And Surprising Brain Alterations
« on: July 02, 2019, 01:51:35 PM »
source: https://www.sciencedaily.com/releases/2007/04/070425142116.htm

Whilst looking into opiate induced amnesia, i came up on the study below. I think that endorphinsWiki play a major role in traumatic memory dissociation and memory "fragmentation"/"corruption" as a fundamental neurological overload protective mechanism.

This, however, is really about the neurological mechanism of addiction when seen as a disease of learning and memory ... or simply getting strung out on opi's because we never understood it's true mechanism of action until we got habituated (and loved it so much!); the classic recreational hazard that is Heroin/Morphine etc. addiction.

Morphine Makes Lasting -- And Surprising -- Change In The Brain

April 26, 2007

New findings may help explain the origins of addiction in the brain. The research also supports a provocative new theory of addiction as a disease of learning and memory.

Morphine stops the synapse-strengthening process in the brain known as LTP (long-term potentiation) at inhibitory synapses, according to new research conducted by Brown University brain scientist Julie Kauer. In Nature, Kauer explains this startlingly persistent effect, which could contribute to addiction and may provide a target for treatments of opioid addiction.

The research also supports a provocative theory of addiction as a disease of learning and memory.


Morphine, as little as a single dose, blocks the brain’s ability to strengthen connections at inhibitory synapses, according to new Brown University research published in Nature.

The findings, uncovered in the laboratory of Brown scientist Julie Kauer, may help explain the origins of addiction in the brain. The research also supports a provocative new theory of addiction as a disease of learning and memory.

“We’ve added a new piece to the puzzle of how addictive drugs affect the brain,” Kauer said. “We’ve shown here that morphine makes lasting changes in the brain by blocking a mechanism that’s believed to be the key to memory making. So these findings reinforce the notion that addiction is a form of pathological learning.”

Kauer, a professor in the Department of Molecular Pharmacology, Physiology and Biotechnology at Brown, is interested in how the brain stores information. Long-term potentiation, or LTP, is critical to this process.

In LTP, connections between neurons – called synapses, the major site of information exchange in the brain – become stronger after repeated stimulation. This increased synaptic strength is believed to be the cellular basis for memory.

In her experiments, Kauer found that LTP is blocked in the brains of rats given as little as a single dose of morphine. The drug’s impact was powerful: LTP continued to be blocked 24 hours later – long after the drug was out of the animal’s system. “The persistence of the effect was stunning,” Kauer said. “This is your brain on drugs.”

Kauer recorded the phenomenon in the ventral tegmental area, or VTA, a small section of the midbrain that is involved in the reward system that reinforces survival-boosting behaviors such as eating and sex – a reward system linked to addiction. The affected synapses, Kauer found, were those between inhibitory neurons and dopamine neurons. In a healthy brain, inhibitory cells would limit the release of dopamine, the “pleasure chemical” that gets released by naturally rewarding experiences. Drugs of abuse, from alcohol to cocaine, also increase dopamine release.

So the net effect of morphine and other opioids, Kauer found, is that they boost the brain’s reward response. “It’s as if a brake were removed and dopamine cells start firing,” she explained. “That activity, combined with other brain changes caused by the drugs, could increase vulnerability to addiction. The brain may, in fact, be learning to crave drugs.”

Kauer and her team not only recorded cellular changes caused by morphine but also molecular ones. In fact, the researchers pinpointed the very molecule that morphine disables – guanylate cyclase. This enzyme, or inhibitory neurons themselves, would be effective targets for drugs that prevent or treat addiction.

Fereshteh Nugent, a Brown postdoctoral research associate, and Esther Penick, a former Brown postdoctoral research associate who now serves as assistant professor of biology at Knox College, rounded out the research team.

The National Institute of Drug Abuse funded the work.

Chip says: being a Heroin addict is as easy as falling off a slippery log (and most difficult
to hop back on again)!
:)
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