Mechanisms of Nicotine
Addiction
Nicotine reinforces the use of
tobacco products primarily through its interaction with specific receptor
proteins within the brain’s reward centers. A critical step in the process of addiction for many drugs,
including nicotine, is the release of the neurotransmitter dopamine. A single nicotine exposure will enhance
dopamine levels for hours, however, nicotinic receptors undergo both activation
and then desensitization in minutes, which presents an important problem. How does the time course of receptor
activity lead to the prolonged release of dopamine? We have found that persistent modulation of both inhibitory
and excitatory synaptic connections by nicotine underlies the sustained
increase in dopamine release.
Because these inputs express different types of nicotinic receptors
there is a coordinated shift in the balance of synaptic inputs toward excitation
of the dopamine neurons.
Excitatory inputs are turned on while inhibitory inputs are depressed,
thereby boosting the brain’s reward system.