Dani_2011_J.Addict.Res.Ther_S1_

Reference

Title : Neurophysiology of Nicotine Addiction - Dani_2011_J.Addict.Res.Ther_S1_
Author(s) : Dani JA , Jenson D , Broussard JI , De Biasi M
Ref : J Addict Res Ther , S1 : , 2011
Abstract :

Tobacco use is a major health problem, and nicotine is the main addictive component. Nicotine binds to nicotinic acetylcholine receptors (nAChR) to produce its initial effects. The nAChRs subtypes are composed of five subunits that can form in numerous combinations with varied functional and pharmacological characteristics. Diverse psychopharmacological effects contribute to the overall process of nicotine addiction, but two general neural systems are emerging as critical for the initiation and maintenance of tobacco use. Mesocorticolimbic circuitry that includes the dopaminergic pathway originating in the ventral tegmental area and projecting to the nucleus accumbens is recognized as vital for reinforcing behaviors during the initiation of nicotine addiction. In this neural system beta2, alpha4, and alpha6 are the most important nAChR subunits underlying the rewarding aspects of nicotine and nicotine self-administration. On the other hand, the epithalamic habenular complex and the interpeduncular nucleus, which are connected via the fasciculus retroflexus, are critical contributors regulating nicotine dosing and withdrawal symptoms. In this case, the alpha5 and beta4 nAChR subunits have critical roles in combination with other subunits. In both of these neural systems, particular nAChR subtypes have roles that contribute to the overall nicotine addiction process.

PubMedSearch : Dani_2011_J.Addict.Res.Ther_S1_
PubMedID: 22454789

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Citations formats

Dani JA, Jenson D, Broussard JI, De Biasi M (2011)
Neurophysiology of Nicotine Addiction
J Addict Res Ther S1 :

Dani JA, Jenson D, Broussard JI, De Biasi M (2011)
J Addict Res Ther S1 :