The goal of this research project is to develop a PET radiotracer to quantify the vesicular acetylcholine transporter (VAChT). VAChT is a novel protein expressed in presynaptic cholinergic nerve terminals. This protein is a key biomarker for studying the loss of cholinergic neurons and synapses, which plays a major role in the cognitive dysfunction of dementia and is associated with a number of neurodegenerative diseases. A PET tracer for VAChT will provide a unique tool to measure the loss of cholinergic neurons and assess the severity of cognitive dysfunction of dementia associated with neurodegenerative diseases. In addition, it has been found that the level of VAChT in the brain is altered during treatment of drug abuse and psychosis. Therefore, a PET tracer for VAChT also will provide a new tool to monitor treatment of drug abuse and psychosis. Currently, PET measurement of brain VAChT in the brain has been hampered due to the lack of a suitable PET tracer. Therefore, it is extremely important to develop in vivo PET imaging agents for VAChT. To develop a PET radiotracer for imaging VAChT, we propose to explore a series of new novel carbonyl containing VAChT inhibitors and identify the more potent isomers of the lead compounds with nanomolar affinity (Ki <10 nM) and high selectivity for VAChT by in vitro bioactivity determination. The identified isomers will be radiosynthesized with C-11 or F-18 and then will be validated in vivo rats and non-human primates. In addition, (-)-[18F]FBBV, a lead radio agent that belongs in this new class of VAChT inhibitors will be further evaluated to determine if it will be a suitable PET tracer for clinical imaging studies of VAChT. The initial in vivo validation of (-)-[18F]FBBV demonstrated high specific binding affinity in the VAChT enriched striatum of the brain. In the current project, we propose to further evaluate (-)[18F]FBBV and several structural congeners. There are five specific aims in this grant application:
Specific Aim 1, Synthesis and Radiosynthesis. We will first resolve the racemic mixtures of 5 new lead compounds to determine which enantiomeric isomers are more potent and more selective using in vitro binding affinity screening assays;the more potent enantiomers will then be radiosynthesized with C-11 or F-18.
Specific Aim 2, Biological evaluation in rats. Rat biodistribution and autoradiography studies will be conducted to determine if the radiotracers bind to VAChT-enriched striatum of the brain.
Specific Aim 3, MicroPET imaging and blood metabolite analysis in nonhuman primates. Baseline studies, test-retest variability studies, specificity studies and reversibility/irreversibility studies of the 18F or 11C-labeled radiotracers will be conducted in macaques including metabolite analysis of arterial blood samples.
Specific Aim 4, Dosimetry Studies. Whole body microPET imaging studies will be conducted in macaques to estimate the dose of radiation absorbed by different organs in human.
Specific Aim 5, Toxicity Studies. Toxicity studies of the unlabeled form of the most promising PET radiotracer will be conducted.
Specific Aims 4 and 5 are prerequisite steps for future PET imaging studies in humans.

Public Health Relevance

Dementia prevalence in the United States has been recently estimated at 5.3 million individuals 5.1 million over the age of 65 and old and 200,000 under 65. In America, Alzheimer's Disease (AD) alone accounts for 60 - 80% of all dementia. In the United States, the social cost for AD and other dementias is reported to be $172 billion. A novel PET tracer of VAChT that could be used on clinic to measure the loss of cholinergic neurons and synapses will be tremendous useful on clinic assessing the severity of cognitive dysfunction of dementia and monitoring the efficacy of cholinergic therapies of neurodegenerative diseases. It also could provide a new tool to investigating the mechanism or monitoring the efficacy of therapy for drug abuse and psychosis.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
1R01NS075527-01
Application #
8162462
Study Section
Clinical Molecular Imaging and Probe Development (CMIP)
Program Officer
Babcock, Debra J
Project Start
2011-06-15
Project End
2016-05-31
Budget Start
2011-06-15
Budget End
2012-05-31
Support Year
1
Fiscal Year
2011
Total Cost
$356,510
Indirect Cost
Name
Washington University
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
068552207
City
Saint Louis
State
MO
Country
United States
Zip Code
63130
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