The cholinergic deficit is the strongest neurochemical correlate of the severity of dementia in patients with Alzheimer's disease (AD). Several post-mortem studies of patients with AD have demonstrated the loss of the 1422-subtype of the nicotinic acetylcholine receptor (1422-nAChR) in the cerebral cortex, hippocampus and striatum, brain regions with a moderate density of 1422-nAChRs, but not in thalamus, a region with the highest density of 1422-nAChRs. In vivo imaging studies of extrathalamic 1422-nAChRs (ETNRs) have been limited by the availability of suitable positron emission tomography (PET) radioligands. The overall objective of this proposal is to develop a radioligand for quantitative PET imaging of ETNR in human subjects that will make it possible to investigate the nicotinic system in neurodegenerative disorders, especially AD. Currently, only one radioligand, 2-[18F]FA, is available for PET imaging of thalamic 1422-nAChRs and its properties for imaging of ETNRs are poor. R21: [18F]XTRA, the first radioligand with properties suitable for quantitative PET imaging of the ETNRs in animals, was recently developed by our group. In the R21 phase (Year 1) we will perform pre-clinical studies with [18F]XTRA that include (1) efficient synthesis of precursor for radiolabeling of [18F]XTRA;(2) in vivo pharmacology and radiation dosimetry studies in mice;and (3) baseline and blocking experiments in baboons using PET. By the end of the R21 phase we will file an exploratory IND for human studies with [18F]XTRA. R33: In the R33 phase (Years 2-4) and after FDA approval of the eIND, [18F]XTRA, will be quantified for pharmacokinetics, distribution density, binding potential and total distribution volume of the ETNRs in the brain of young human control subjects (18-45 years old). Appropriate PET models for quantification of ETNRs with [18F]XTRA in human brain will be developed. Radiation dosimetry of [18F]XTRA in humans will be also obtained in Year 2 to assure the safety of [18F]XTRA for two or more PET scans per subject, enabling human test/re-test PET scans in Year 2. PET experiments in elderly human control subjects (over age 60) will be performed in Year 3. The results of those experiments will be compared with PET scans of age-matched patients with AD (over age 60) (Year 4). Significant differences are expected in [18F]XTRA binding in the extrathalamic regions (frontal and temporal cortices, hippocampus and striatum) in young subjects compared to elderly people and in patients with AD compared to age-matched controls. Our long term goals are to evaluate 1422-nAChR as a biomarker of AD by studying the longitudinal course of receptor changes in AD and mild cognitive impairment and to test the sensitivity of these receptors the effects of cholinergic treatment.

Public Health Relevance

Development of radioligands for positron emission tomography (PET) imaging of the extrathalamic nicotinic receptors (ET 1422-nAChR) is of great importance for studying the role of the nicotinic system in neurodegenerative disorders, schizophrenia, drug dependence and a variety of other disorders as well as for developing nicotinic medications to treat these conditions.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Exploratory/Developmental Grants Phase II (R33)
Project #
4R33AG037298-02
Application #
8449414
Study Section
Medical Imaging Study Section (MEDI)
Program Officer
Hsiao, John
Project Start
2011-03-01
Project End
2015-08-31
Budget Start
2012-09-15
Budget End
2013-08-31
Support Year
2
Fiscal Year
2012
Total Cost
$442,400
Indirect Cost
$172,683
Name
Johns Hopkins University
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21218
Moldovan, Rare?-Petru; Deuther-Conrad, Winnie; Horti, Andrew G et al. (2017) Synthesis and Preliminary Biological Evaluation of Indol-3-yl-oxoacetamides as Potent Cannabinoid Receptor Type 2 Ligands. Molecules 22:
Ponce, Francisco A; Asaad, Wael F; Foote, Kelly D et al. (2016) Bilateral deep brain stimulation of the fornix for Alzheimer's disease: surgical safety in the ADvance trial. J Neurosurg 125:75-84
Horti, Andrew G (2015) Development of [(18)F]ASEM, a specific radiotracer for quantification of the ?7-nAChR with positron-emission tomography. Biochem Pharmacol 97:566-575
Gao, Yongjun; Mease, Ronnie C; Olson, Thao T et al. (2015) [(125)I]Iodo-ASEM, a specific in vivo radioligand for ?7-nAChR. Nucl Med Biol 42:488-493
Wong, Dean F; Kuwabara, Hiroto; Pomper, Martin et al. (2014) Human brain imaging of ?7 nAChR with [(18)F]ASEM: a new PET radiotracer for neuropsychiatry and determination of drug occupancy. Mol Imaging Biol 16:730-8
Horti, Andrew G; Gao, Yongjun; Kuwabara, Hiroto et al. (2014) 18F-ASEM, a radiolabeled antagonist for imaging the ?7-nicotinic acetylcholine receptor with PET. J Nucl Med 55:672-7
Horti, Andrew G; Ravert, Hayden T; Gao, Yongjun et al. (2013) Synthesis and evaluation of new radioligands [(11)C]A-833834 and [(11)C]A-752274 for positron-emission tomography of ?7-nicotinic acetylcholine receptors. Nucl Med Biol 40:395-402
Horti, Andrew G; Kuwabara, Hiroto; Holt, Daniel P et al. (2013) Recent PET radioligands with optimal brain kinetics for imaging nicotinic acetylcholine receptors. J Labelled Comp Radiopharm 56:159-66
Gao, Yongjun; Kellar, Kenneth J; Yasuda, Robert P et al. (2013) Derivatives of dibenzothiophene for positron emission tomography imaging of *7-nicotinic acetylcholine receptors. J Med Chem 56:7574-89