Varying oral doses of Varenicline (VCN), starting with very low doses, will be administered to participants with Parkinson's Disease (PD) or healthy controls without PD for several days. Positron emission tomography (PET) scans after administration of VCN will be used to determine the lowest oral dose of VCN producing an adequate brain level of VCN. These experiments (1 \& 2) will be used to determine an appropriate oral dose of VCN to administer to PD participants for experiment 3 of the study (see NCT04403399).
To demonstrate that α4β2\* nAChRs are appropriate therapeutic targets in Parkinson's Disease (PD), it is necessary to study key pharmacokinetic-pharmacodynamic features of α4β2\* nAChR in the context of the PD brain with loss of nerve cells that produce the neurotransmitter acetylcholine, a pathologic environment in which they may exhibit unique features. This personalized medicine approach focuses our studies on the subgroup of PD subjects with loss of nerve cells that produce the neurotransmitter acetylcholine identified by Project II and the Clinical Resource Core. The investigators will assess α4β2\* nAChR features using PET imaging with the α4β2\* nAChR ligand \[18 - Fluorine\] flubatine, subacute administration of the α4β2\* nAChR partial agonist Varenicline (VCN), and laboratory measures of gait, balance, and attention. The investigators will use \[18 - Fluorine\] flubatine PET to assess VCN occupancy of brain α4β2\* nAChRs (experiments 1 \& 2). VCN will be administered to both PD participants (experiment 1) and healthy controls (experiment 2) and both populations will undergo a flubatine PET scan to assess VCN occupancy. Using this PET data to select an appropriate VCN dose, the investigators will perform a pharmacodynamic study (experiment 3) with subacute VCN administration to determine if α4β2\* nAChR stimulation improves laboratory measures of gait function, postural control, and attentional function in PD subjects with loss of nerve cells that produce the neurotransmitter acetylcholine.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Participants take varenicline for 10 days. Each participant will be on one dosage throughout the 10 days, but not all participants receive the same dosage. The dosages that were utilized for both Parkinson's disease participants and healthy volunteers were 0.25mg once a day, 0.25mg twice a day, and 0.5mg twice a day. A fourth dosing group of 1 mg varenicline twice a day was studied in Parkinson's disease participants, but not in healthy volunteers.
Varenicline Occupancy of alpha4beta2* Nicotinic Acetylcholine Receptors
Varenicline occupancy of alpha4beta2\* nicotinic acetylcholine receptors (nAChR) was assessed with ascending doses of varenicline and the selective alpha4beta2\* nAChR positron emission tomography (PET) ligand \[18F\]Flubatine. Alpha4beta2\* nAChR agonists may induce nAChR expression. Consequently, we imaged participants at the end of their drug exposure periods (Day 10) and again after 5 days (\~5 half-lives) of washout from drug exposure (Day 15). We used the difference between the two PET scans, (Day 10 - Day 15)/Day 15 x 100%, to determine the receptor occupancy of alpha4beta2\* nicotinic acetylcholine receptors (nAChR) by each dose of varenicline.
Time frame: 15 days
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Enrollment
25