Abstract
The sensory experience of smoking is a key component of nicotine addiction known to result, in part, from stimulation of nicotinic acetylcholine receptors (nAChRs) at peripheral sensory nerve endings. Such stimulation of nAChRs is followed by activation of neurons at multiple sites in the mesocorticolimbic reward pathways. However, the neurochemical profiles of CNS cells that mediate the peripheral sensory impact of nicotine remain unknown. In the present study in mice, we first used c-Fos immunohistochemistry to identify CNS cells stimulated by nicotine (NIC, 40 μg/kg, IP) and by a peripherally-acting analog of nicotine, nicotine pyrrolidine methiodide (NIC-PM, 30 μg/kg, IP). Sequential double-labelling was then performed to determine whether noradrenergic and dopaminergic neurons of the nicotine reward-addiction circuitry were primary targets of NIC and NIC-PM. Double-labelling of NIC and/or NIC-PM activated c-Fos immunoreactive cells with tyrosine hydroxylase (TH) showed no apparent c-Fos expression by the dopaminergic cells of the ventral tegmental area (VTA). With the exception of sparse numbers of TH immunoreactive D11 cells, dopamine-containing neurons in other areas of the reward-addiction circuitry, namely periaqueductal gray, and dorsal raphe, were also devoid of c-Fos immunoreactivity. Noradrenergic neurons of locus coeruleus (LC), known to innervate VTA, were activated by both NIC and NIC-PM. These results demonstrate that noradrenergic neurons of LC are among the first structures that are stimulated by single acute IP injection of NIC and NIC-PM. Dopaminergic neurons of VTA and other CNS sites, did not respond to acute IP administration of NIC or NIC-PM by induction of c-Fos.
Highlights
Addictive properties of nicotine in tobacco smoke stem from activation of neurons comprising the brain’s mesocorticolimbic reward pathways
We previously demonstrated that nicotine (NIC) and nicotine pyrrolidine methiodide (NIC-PM) activate neurons at multiple CNS sites including areas overlapping ventral tegmental area (VTA), periaqueductal gray (PAG), dorsal raphe nucleus (DR), hypothalamus and locus coeruleus (LC), known to contain dopaminergic and noradrenergic neurons [17]
Semi-quantification of c-Fos immunoreactive (IR) cells in LC showed that the number of cFos activated cells was significantly greater in the NIC- and NIC-PM-treated animals compared to the physiological saline (PS) treated controls (46.50 ± 6.79 cells and 54.17 ± 14.84 cells respectively, compared to 4.41 ± 1.98 cells, P < 0.001)
Summary
Addictive properties of nicotine in tobacco smoke stem from activation of neurons comprising the brain’s mesocorticolimbic reward pathways. These neurons are activated either directly or indirectly through nicotinic acetylcholine receptors (nAChRs), widely distributed in the central and peripheral nervous systems [1,2,3,4]. The direct effects of nicotine on CNS neurons are critical for its reward and addiction properties [5,6,7,8,9]. The importance of the peripheral sensory impact of nicotine in its reward and addiction properties is documented in recent animal studies from our laboratory [17]. The neurochemical profiles of cells that mediate the sensory impact of nicotine in the CNS are not known
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