The goals of this project are the design, synthesis and preliminary in vitro and in vivo evaluation of new radiolabeled ligands for the picrotoxin binding site of the GABAA receptor. In particular, we seek the identification and characterization of ligands that display sensitivity to the functional state of the GABAA receptor in vivo. The GABAA receptor is present at a very high proportion of synapses in the brain, and dysfunction of this receptor has been implicated in a wide variety of neurological, psychiatric and drug abuse conditions. The new radioligands to be prepared will be based on the recently reported dithiane and dithiane oxide structural class of high affinity picotoxin site ligands. Preliminary in vivo studies with 11C- and 18F- labeled dithiane oxides have demonstrated blood-brain-barrier permeability, metabolic stability in the blood, and some-dependent alterations of in vivo uptake in brain after administration of a GABA agonist. New compounds will be examined for in vitro binding affinities (inhibition of binding of [35S]TBPS to rodent cortical membranes. High affinity compounds (Ki<20 nM) will then be prepared in carbon-11 or fluorine-18 form, and the regional brain pharmacokinetics in rodents determined. These distributions will also be examined in the presence of drugs known to alter the functioning of the GABAA receptor, such as GABA agonists, benzodiazepines, and beta-carbolines. The optimal compounds will then be examined for reproducibility and sensitivity to GABAergic perturbations using PET imaging and quantification of radiotracer pharmacokinetics in the monkey brain. The goal will be the development of radioligands with appropriate pharmacokinetics and pharmacological specificity to be suitable for in vivo studies of the picrotoxin site as a functional marker of the human brain GABAA receptor using Positron Emission Tomography (PET). In combination with existing radioligands for measurement of the numbers of benzodiazepine sites, these new functional radioligands will allow more complete characterization of GABAergic neurotransmission in the normal and diseased human brain.

Project Start
1979-12-01
Project End
2006-07-31
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
21
Fiscal Year
2001
Total Cost
$103,525
Indirect Cost
Name
University of Michigan Ann Arbor
Department
Type
DUNS #
791277940
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Bohnen, Nicolaas I; Kanel, Prabesh; Müller, Martijn L T M (2018) Molecular Imaging of the Cholinergic System in Parkinson's Disease. Int Rev Neurobiol 141:211-250
Rektor, Ivan; Bohnen, Nicolaas I; Korczyn, Amos D et al. (2018) An updated diagnostic approach to subtype definition of vascular parkinsonism - Recommendations from an expert working group. Parkinsonism Relat Disord 49:9-16
Kim, Kamin; Bohnen, Nicolaas I; Müller, Martijn L T M et al. (2018) Compensatory dopaminergic-cholinergic interactions in conflict processing: Evidence from patients with Parkinson's disease. Neuroimage :
Beaulieu, Mélanie L; Müller, Martijn L T M; Bohnen, Nicolaas I (2018) Peripheral neuropathy is associated with more frequent falls in Parkinson's disease. Parkinsonism Relat Disord 54:46-50
Bohnen, Nicolaas I; Grothe, Michel J; Ray, Nicola J et al. (2018) Recent advances in cholinergic imaging and cognitive decline-Revisiting the cholinergic hypothesis of dementia. Curr Geriatr Rep 7:1-11
Nejad-Davarani, Siamak; Koeppe, Robert A; Albin, Roger L et al. (2018) Quantification of brain cholinergic denervation in dementia with Lewy bodies using PET imaging with [18F]-FEOBV. Mol Psychiatry :
Kotagal, Vikas; Albin, Roger L; Müller, Martijn L T M et al. (2018) Cardiovascular Risk Factor Burden in Veterans and Non-Veterans with Parkinson Disease. J Parkinsons Dis 8:153-160
Bohnen, Nicolaas I; Müller, Martijn L T M; Frey, Kirk A (2017) Molecular Imaging and Updated Diagnostic Criteria in Lewy Body Dementias. Curr Neurol Neurosci Rep 17:73
Chou, Kelvin L; Gilman, Sid; Bohnen, Nicolaas I (2017) Association between autonomic dysfunction and fatigue in Parkinson disease. J Neurol Sci 377:190-192
Kim, Kamin; Müller, Martijn L T M; Bohnen, Nicolaas I et al. (2017) The cortical cholinergic system contributes to the top-down control of distraction: Evidence from patients with Parkinson's disease. Neuroimage :

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