UCSF Study Links Marijuana Ingredient To Memory

Pubdate: Thu, 29 Mar 2001
Source: San Jose Mercury News (CA)
Copyright: 2001 San Jose Mercury News
Contact:  http://www.sjmercury.com/
Details: http://www.mapinc.org/media/390
Author: Lisa M. Krieger, Mercury News

UCSF STUDY LINKS MARIJUANA INGREDIENT TO MEMORY

The body produces its own marijuana-like chemical that may play a role in 
the creation of memories, according to a new research findings by UC-San 
Francisco scientists.

The study, reported in today's issue of the journal Nature, suggests that 
the molecule, known as a cannabinoid, may regulate the flow of messages 
along the pathway in the brain used to build a memory.

Although researchers determined nearly a decade ago that the brain contains 
a molecule that mimics the active ingredient in marijuana, its location and 
role in the brain has remained a puzzle.

The University of California-San Francisco study concludes that the 
molecule works within a part of the brain known as the hippocampus, a 
region associated with the learning process.

And while researchers do not yet know the exact mechanism of action, they 
believe that the molecule may block the normal inhibition of messages sent 
by brain cells -- in other words, it tells the gates of neural pathways to 
stay open, not shut.

Paradoxically, as any pot smoker knows, marijuana is hard on memory. That 
made cannabinoid even more interesting to the scientists.

``It seems to me that anything . . . conserved throughout evolution must be 
good for you,'' said Rachel Wilson, a graduate student in the laboratory of 
Roger Nicoll, professor of cellular and molecular pharmacology and 
physiology at UCSF.

The likely explanation, according to the UCSF team, is that marijuana 
confuses and disrupts the same cognitive system that the naturally 
occurring molecule supports. Perhaps it incites changes in the strength or 
pattern of the messages, the scientists suggest.

Normally, messages fly back and forth along pathways between neurons, many 
times a minute. One type of neuron triggers messages; the other shuts them 
down. Working together, they create a system where messages are routinely 
sent and discarded.

But every so often, the cannabinoid molecule is released by the trigger 
cell, sending a signal that a message is important and deserves repeating.

This may contribute to the creation of a new memory, according to the authors.

It may also influence the complex cascade of biochemical reactions that 
convert short-term memories into permanent ones.

Some scientists also think that cannabinoid disregulation -- when the body 
produces to much or too little of the molecule -- may be linked to mood 
disorders.

The goal of future research is to learn how this natural system works, and 
whether it can be exploited for therapeutic purposes.
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MAP posted-by: Larry Stevens