This project will assess the availability of the cerebral ?7 nicotinic acetylcholine receptor (?7-nAChR) as a contributing factor in the early pathophysiology of Alzheimer's disease (AD). Converging data suggest that the ?7-nAChR promotes accumulation of A?42 in cholinergic neurons, particularly in basal forebrain and neocortical regions where the ?7-nAChR is more highly expressed. High cerebral ?7-nAChR availability (as we have observed in normal aging), promotes intracellular sequestration of A?42 in cholinergic cells, and the A?42-?7-nAChR interaction functionally antagonizes the ?7-nAChR, which may be linked to progressive, localized cell-death, synaptic loss, and aberrant neuronal activity long before spread of extracellular amyloid plaque. The A?42-?7-nAChR complex drives upregulated expression of the ?7-nAChR, fueling its further interactions with soluble A?42 species. Based on published evidence and our preliminary data, we hypothesize that higher, cerebral ?7-nAChR binding will be observed in patients with MCI, the prodrome to AD, compared to cognitively normal elderly controls using [18F]ASEM (ASEM) with positron emission tomography (PET). We further hypothesize that higher availability of ?7-nAChR in targeted brain regions will be associated with 1. lower cognitive performance and 2. higher circulating, AD-relevant, biofluid biomarkers such as ?7-nAChR autoantibodies within these participants. We will thus test for hypothesized high availability of the ?7-nAChR in MCI compared to cognitively normal individuals, and its relationship to cognitive performance (Aim 1), as well as its correlation with targeted biofluid markers that include plasma ?7- nAChR autoantibodies (Aim 2). Finally, in Aim 3, we will evaluate changes in ?7-nAChR availability using ASEM PET and its relationship to cognitive performance and these biofluid markers between baseline and two-year follow-up in a subset of participants from Aims 1 and 2. The goal of this proposal is to test for high brain availability of the ?7-nAChR in MCI and its relationship to cognition and circulating AD-relevant biomarkers - a critical step toward evaluating the ?7-nAChR as an AD imaging biomarker with diagnostic and therapeutic implications.
This study aims to assess the availability of the alpha7 nicotinic acetylcholine receptor (?7-nAChR) in patients with mild cognitive impairment (MCI). This project will use positron emission tomography and [18F]ASEM, a new radiotracer developed to image the ?7-nAChR, in brains of patients with MCI and cognitively normal individuals, the latter serving as a comparison group. We will also assess the relationships between the ?7- nAChR in the brain and 1) cognitive performance and 2) circulating autoantibodies to the ?7-nAChR and other biofluid markers at baseline and 2-year follow-up.
