New understanding of how nicotine causes addiction has emerged, according to research published in eLife.
Although
smoking rates are declining, a consistent portion of the population
continues to smoke, making continued research into tobacco addiction
important.
One
reason people find it hard to quit smoking is that each time they have a
cigarette, feelings of craving, irritability and anxiety melt away.This
is known as negative reward and is partly controlled by a region of the
brain called the habenula.
The
neurotransmitters acetylcholine and glutamate are thought to influence
nicotine dependence in the habenula, but the molecular details of this
regulation are unclear.
Neurotransmitters
are the chemical messengers of the brain. They are packaged into
spherical structures at the ends of neurons, called vesicles. On
receiving certain signals, neurons release their vesicle contents into
the synapse, sending the signal on to the next neuron.
Neurons
can recycle neurotransmitters by reabsorbing them through reuptake, a
process that allows them to control the exact number of
neurotransmitters in the synapse.
Even
a small upset in the balance of neurotransmitters can affect behavior.
In the case of acetylcholine, it can influence our ability to cope with
addiction.Ines Ibanez-Tallon, and colleagues from Rockefeller University
in New York, knew that acetylcholine and glutamate played important
roles in the neurons in the habenula - but not how they might interact
to reinforce addiction.
Acetylcholine controls glutamate release
The
researchers created a mouse model where a key gene involved in
acetylcholine processing was missing; this prevented acetylcholine
production in habenular neurons.
The
elimination of acetylcholine affected glutamate in the habenula in two
ways. First, the amount of glutamate released by neurons was reduced;
second, the reuptake of glutamate back into vesicles was impaired.
Both of these mechanisms disrupt normal signaling, thus affecting the excitability of neurons.
Based
on these findings, the researchers suggest that acetylcholine regulates
how much glutamate is released into the synapse, and at what frequency.
It also facilitates the packaging of glutamate into vesicles.
Studies
using electron microscopy confirmed that the neurotransmitters are in
the same place at the same time and are able to affect one
another.Removing acetylcholine decreases sense of reward
When
the researchers removed acetylcholine from the habenula of the mice,
the mice became insensitive to the rewards of nicotine. They did not
develop a tolerance to continued nicotine exposure, nor did they
experience withdrawal symptoms, such as body shakes and scratching.
The findings suggest that without acetylcholine, nicotine addiction would not occur.
They
also reveal new clues about the brain circuitry involved in nicotine
dependence, which is relevant to opioid and cannabinoid addiction.In
future, the researchers hope to examine how the interaction between
acetylcholine and glutamate might work in other areas of the brain.
They say:
Resource: http://www.medicalnewstoday.com/articles/303512.php
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