Microinjections of the cholinergic receptor agonist nicotine and the cholinesterase inhibitor neostigmine were made into the ventral tegmental area (VTA) of urethane-anesthetized rats, and dopamine (DA) efflux in the nucleus accumbens was measured using in vivo chronoamperometry. Dose-dependent increases in the chronoamperometric signals corresponding to increased DA efflux were observed in the nucleus accumbens of normal intact rats after cholinergic stimulation of the VTA. The source of the cholinergic input to the VTA was investigated by making excitotoxic lesions in either the laterodorsal tegmental nucleus (LDTg) or the pedunculopontine tegmental nucleus (PPTg). Compared with sham-operated control animals, which showed the same response as intact, nonlesioned rats, ibotenate lesions of the LDTg attenuated the stimulatory effects of intra-VTA neostigmine on DA efflux in the nucleus accumbens. In contrast, rats with ibotenate lesions of the PPTg showed normal nucleus accumbens DA eflux after intra-VTA injections of neostigmine. Such lesions in the PPTg attenuate DA efflux in the caudate-putamen stimulated by injections of neostigmine into the substantia nigra pars compacta (SNc). The present data show that cholinergic neurons in the LDTg, but not the PPTg, regulate the activity of DA-containing neurons in the VTA, which complements previous data showing that cholinergic neurons in the PPTg regulate DA-containing neurons in the SNc.
The effects of microinjections of cholinergic agents into the substantia nigra pars compacta on dopamine (DA) efflux in the anterior dorsomedial striatum of urethane-anesthetized rats were investigated using in vivo chronoamperometry and intracerebral microdialysis techniques. A dose-dependent augmentation of DA efflux as evidenced by increases in the chronoamperometric signals was observed in the striatum following nigral microinjections of the cholinergic agonists nicotine or carbachol. Enhancing extracellular concentrations of ACh in the substantia nigra by intranigral infusions of the cholinesterase inhibitor neostigmine also resulted in an increase in the chronoamperometric signal corresponding to DA overflow in the striatum. These stimulatory effects of neostigmine on DA efflux in the striatum were confirmed using in vivo microdialysis. Compared to sham-operated control animals, quinolinic acid lesions of the pedunculopontine tegmental nucleus (PPTg) resulted in an attenuation of the stimulatory effects of intranigral neostigmine on DA efflux in the striatum. In contrast, these treatments resulted in an enhancement of striatal DA efflux in response to nigral infusions of the direct ACh receptor agonist nicotine. Combined, these data suggest that PPTg cholinergic neurons are indirectly involved in regulating the activity of the striatum by modulating the activity of DA neurons in the substantia nigra of the rat.
The pedunculopontine tegmental nucleus (PPTg) has been proposed as a target for deep brain stimulation (DBS) in parkinsonian patients, particularly for symptoms such as gait and postural difficulties refractory to dopaminergic treatments. Several patients have had electrodes implanted aimed at the PPTg, but outcomes have been disappointing, with little evidence that gait and posture are improved. The PPTg is a heterogeneous structure. Consequently, exact target sites in PPTg, possible DBS mechanisms, and potential benefits still need systematic investigation in good animal models. We have investigated the role of PPTg in gait, developed a refined model of parkinsonism including partial loss of the PPTg with bilateral destruction of nigrostriatal dopamine neurons that mimics human pathophysiology, and investigated the effect of DBS at different PPTg locations on gait and posture using a wireless device that lets rats move freely while receiving stimulation. Neither partial nor complete lesions of PPTg caused gait deficits, underlining questions raised previously about the status of PPTg as a motor control structure. The effect of DBS in the refined and standard model of parkinsonism were very different despite minimal behavioral differences in nonstimulation control conditions. Anterior PPTg DBS caused severe episodes of freezing and worsened gait, whereas specific gait parameters were mildly improved by stimulation of posterior PPTg. These results emphasize the critical importance of intra-PPTg DBS location and highlight the need to take PPTg degeneration into consideration when modeling parkinsonian symptoms. They also further implicate a role for PPTg in the pathophysiology of parkinsonism.
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