RATIONALE: The pedunculopontine tegmental nucleus (PPTg) has been implicated in the self-administration of drugs, particularly nicotine, which acts directly through the PPTg in addition to targeting midbrain dopamine neurons. The direct action of nicotine in PPTg may be through GABAergic mechanisms that have been shown to influence nicotine self-administration preferentially compared to cocaine. OBJECTIVE: The purpose of these experiments was to examine several pharmacological manipulations that alter neuronal activity in the PPTg for their specificity or generality in nicotine versus cocaine reinforcement. METHODS AND RESULTS: Rats trained to self-administer nicotine or cocaine intravenously were prepared with brain microcannulae directed to the PPTg. Intra-PPTg microinfusions of the muscarinic agonist carbachol (0.1-1.0 microg), the micro opioid agonist DAMGO (0.005 and 0.05 microg), tetrodotoxin (5 ng) and neostigmine (0.5 nmol) each reduced the self-administration of nicotine and cocaine maintained on an FR5 schedule of reinforcement. The muscarinic antagonist scopolamine (0.1-1.0 microg) and the opioid antagonist CTOP (1 microg) did not affect self-administration, but reversed the effects of the respective agonist when co-administered with it. Carbachol and DAMGO were also tested in self-administration maintained on a progressive-ratio schedule; each agonist again reduced both nicotine and cocaine self-administration. CONCLUSIONS: PPTg manipulations are able to alter established self-administration of nicotine, which acts at the level of the ventral tegmental area and the PPTg itself, and cocaine, which acts through the mesolimbic dopamine system. These data suggest that the PPTg is an important substrate in drug dependence.
RATIONALE: The pedunculopontine tegmental nucleus (PPTg) has been implicated in the self-administration of drugs, particularly nicotine, which acts directly through the PPTg in addition to targeting midbrain dopamine neurons. The direct action of nicotine in PPTg may be through GABAergic mechanisms that have been shown to influence nicotine self-administration preferentially compared to cocaine. OBJECTIVE: The purpose of these experiments was to examine several pharmacological manipulations that alter neuronal activity in the PPTg for their specificity or generality in nicotine versus cocaine reinforcement. METHODS AND RESULTS:Rats trained to self-administer nicotine or cocaine intravenously were prepared with brain microcannulae directed to the PPTg. Intra-PPTg microinfusions of the muscarinic agonist carbachol (0.1-1.0 microg), the micro opioid agonist DAMGO (0.005 and 0.05 microg), tetrodotoxin (5 ng) and neostigmine (0.5 nmol) each reduced the self-administration of nicotine and cocaine maintained on an FR5 schedule of reinforcement. The muscarinic antagonist scopolamine (0.1-1.0 microg) and the opioid antagonist CTOP (1 microg) did not affect self-administration, but reversed the effects of the respective agonist when co-administered with it. Carbachol and DAMGO were also tested in self-administration maintained on a progressive-ratio schedule; each agonist again reduced both nicotine and cocaine self-administration. CONCLUSIONS: PPTg manipulations are able to alter established self-administration of nicotine, which acts at the level of the ventral tegmental area and the PPTg itself, and cocaine, which acts through the mesolimbic dopamine system. These data suggest that the PPTg is an important substrate in drug dependence.
Authors: M Besson; V David; S Suarez; A Cormier; P Cazala; J-P Changeux; S Granon Journal: Psychopharmacology (Berl) Date: 2006-06-03 Impact factor: 4.530
Authors: Mariza Bortolanza; Evellyn C Wietzikoski; Suelen L Boschen; Patricia A Dombrowski; Mary Latimer; Duncan A A Maclaren; Philip Winn; Claudio Da Cunha Journal: Neurobiol Learn Mem Date: 2010-06-01 Impact factor: 2.877
Authors: Gregory P Mark; Anthony E Kinney; Michele C Grubb; Xiaoman Zhu; Deborah A Finn; Sarah L Mader; S Paul Berger; Anita J Bechtholt Journal: Brain Res Date: 2006-10-13 Impact factor: 3.252
Authors: Cheng Xiao; Jounhong Ryan Cho; Chunyi Zhou; Jennifer B Treweek; Ken Chan; Sheri L McKinney; Bin Yang; Viviana Gradinaru Journal: Neuron Date: 2016-04-20 Impact factor: 17.173