Projects and Grants per year
Grants and Contracts Details
Description
CORE A – ABSTRACT
Core A (Administrative Core) will provide leadership, promote cohesion, and ensure fiscal oversight of the
overall P01. A strong Administrative Core is essential to the success of the P01. En route to stimulating and
fostering interactions among the P01 team, Core A will provide common resources, manage budgetary issues,
and fulfill administrative obligations to the University and to the NIH/NIA. These services will allow the Projects
and Cores to focus on the Science and reconceptualize the role of reactive astrocytes in the pathophysiology
of Alzheimer’s disease and related disorders (ADRDs). Specific Aim will provide coordinated and coherent
infrastructure that enhances scientific activities and promotes communication across the Projects and Cores.
Aim 2 will oversee animal colonies and production/characterization of AAV reagents. And Aim 3 will provide
fiscal management and administrative support.
CORE B – ABSTRACT
Astrocytes support brain function by integrating their roles with several cell types. They support
neurons and regulate blood flow to supply and preserve active brain region. Astrocytes become
activated in Alzheimer’s disease (AD) and their functions are not fully understood. Our group at
the Sanders-Brown Center on Aging including Drs. Wilcock, Thibault, Norris, and Nelson
investigate roles of astrocytes, neurons and vascular in aging and AD brain. These research
topics are inter-connected and the successful of this program project will move our
understanding of activated astrocyte beyond neuroinflammation constraints. Our core will
provide multiple assays to characterize functional phenotypes of activated astrocytes and their
neuronal and vascular partners. Moreover, results uniformly generated from our core will benefit
comparison across projects. The central purpose of our Core B is to support the proposed
projects by providing our reliable routine service on functional assays in living animals. We will
do so through these specific aims: (1) Coordinate for small animal surgeries and intravital
imaging techniques, including training and oversight. (2) Coordinate all brain slice
electrophysiology experiments. (3) Coordinate and provide service for microelectrode arrays
experiments. (4) Coordinate and provide service for Magnetic Resonance Imaging
experiments. Furthermore, our Core will be coordinating with the data core (Core D), where the
results will be stored, processed, and easily accessed from our collaborative groups both in UK
and beyond.
CORE C – ABSTRACT
The Human Studies Core functions to serve and complement the P01 Projects. Variables of human data and
mouse model projects are not always comparable even when the similar-seeming tests were used. There are
specific challenges for incorporating relevant research on human data, and clinical biosamples – brain tissue,
neuropathology, biofluids, and neuroimages —that require clinical research expertise to liaise with the Project
leaders. Human Core C will bridge those critical gaps. Core C will work through the following Specific Aims:
Specific Aim 1: Optimize clinically-relevant study design and manage an ongoing data streams
incorporating human biomarker and autopsy data. The main goals of this Aim are to foster Integration of
molecular, metabolic, and network-wide domains in animal models, human endophenotypes, and human
preclinical and clinical endpoints. There will be regular meetings between clinicians researchers and mouse
modelers; interactions between Projects and longitudinal clinical research data: UK-ADRC and MARK-VCID;
and, a data management system for organizing data that are then sent on to Core D
Specific Aim 2: From existing autopsy material and data, generate a set of samples from human
cases from the UK-ADRC that encompasses the ADRD phenotypes studied in all 4 Projects (AD, VCID,
LATE+HS, and controls) and provides a common basis for downstream biochemical and
neuropathological endpoint assessments relevant to the Projects. We will analyze a panel of 100 cases
for this Aim. Aim 2a: Biochemistry. We will perform multi-level protein extracts and run western blots with
quantitative measurements on each sample with the following: GFAP, AQP4, Kir4.1, MMP9, SLC1A2, IR-B2,
SUR2B, SUR2(total), A?, Tau, TDP-43, and ?-Synuclein. Aim 2b: Neuropathology. Neuropathologic
endpoints will be characterized in a quantitative manner: Astrocytosis (GFAP+), A? plaques, and Tau tangles.
We also will perform highly quantitative assessments of blood vessel morphology. Double-label
immunofluorescence will characterize IR and SUR2 proteins’ cellular distributions
Specific Aim 3: From existing clinical material, generate a set of biomarker (in vivo) data from human
subjects that represents a common basis for downstream biofluids and neuroimaging endpoint
assessments relevant to the projects. Aim 3A: Neuroimaging: Spectroscopy, blood flow, and
cerebrovascular reactivity data from existing human imaging on a 3T MRI scanner will be generated and
provided to Projects and Core D. Drs. Powell and Bahrani in Core C are also performing parallel neuroimaging
experiments in mice as a part of Core B. Aim 3B: Fluid Biomarkers: Cerebrospinal fluid (CSF) and plasma
that are banked from UK-ADRC and UK-MarkVCID participants wil be assayed for MMP9 and GFAP using
Quanterix Simoa assays and AQP4, Kir4.1 and Dp71 will be assayed using a standard, colorimetric ELISA
method. Additional candidate fluid biomarkers identified by the projects can also be assayed by Core C.
CORE D – ABSTRACT
The Data Management and Biostatistics (DMB) Core is designed to provide critical support for the P01
investigators to manage and analyze data. Given that interdisciplinary research requires researchers to use
methods and data from a range of disciplines, the role of the DMB Core is vital to the success of the P01
project. Data management efforts will focus on collecting, storing, and sharing high quality data. This focus
begins with the leadership and vision and attention to detail provided by the DMB Core. The DMB Core will
provide statistical analyses individually tailored to the P01 projects and Cores’ needs, and develop and apply
statistical methodology for multidimensional data generated across the P01 projects and Cores. Further, the
DMB Core will actively interact with the P01 investigators, understand their research hypotheses, plan and
suggest appropriate statistical analysis methods and models, build tailored analysis pipelines, interpret and
discuss results, create graphs and tables for presentations and manuscripts, and write a statistical analysis
section in manuscripts. The DMB Core will host an in-person (or Zoom) data quality and management
workshops with the entire P01 team. The materials developed and used for workshops will be documented and
shared with to the P01 team members. The DMB Core will continue these critical responsibilities through the
following specific aims.
Aim 1: Maintain and expand an integrated data warehouse and suite of Browser-based data collection
applications and reporting platforms for the P01 Cores and projects.
Aim 2: Provide expertise on tailored and integrated statistical analyses.
Aim 3: Host training in data management practices for the research team
PROJECT 1 – ABSTRACT
Astrocytes are integral cellular components of the neurovascular unit; the specialized unit that sees
vascular and brain parenchymal cell types come together to precisely match cerebral blood flow with neuronal
activity in discreet regions of the brain. In order to link the cerebral vasculature with neuronal activity,
astrocytes project processes to the vasculature where they form astrocytic end-feet that almost entirely
sheathe the cerebral vasculature. These end-feet are highly specialized to their function; namely neurovascular
coupling and homeostasis. Such functions are critical to maintaining an optimal environment in which neurons
can function appropriately.
Astrocytic end-feet are physically anchored to the vascular basement membranes via dystroglycan
complexes. At the end-feet are potassium and water channels Kir4.1 and aquaporin 4 (AQP4), as well as
monocarboxylic acid transporters (MCTs). AQP4 and Kir4.1 channels are polarized at the end-foot and are co-
anchored via a α-syntrophin-dystrophin 1 complex. We have found that cerebral amyloid angiopathy (CAA)
and cerebral small vessel disease (cSVD) induced by hyperhomocysteinemia (HHcy) both resulted in
degeneration and dissociation of the astrocytic end-feet and an associated loss of AQP4 and Kir4.1 from the
end-feet. This suggests that the end-feet are particularly susceptible to vascular injury and as such may
mediate neuronal dysfunction and neurodegeneration associated with dementia. We have observed
increased activity of matrix metalloproteinases (MMPs), in particular MMP9, coincident with astrocytic end-foto
degeneration. We therefore hypothesize that MMP9 is necessary and sufficient for astrocytic end-foot
degeneration and associated neurovascular coupling, and metabolic and ionic dyshomeostasis. To test
this hypothesis we propose three distinct aims.
• Specific Aim 1: MMP9 mediated astrocytic end-foot degeneration will result in cerebrovascular
dysfunction impaired neurovascular coupling.
• Specific Aim 2: MMP9 mediated astrocytic end-foot degeneration will result in metabolic and ionic
dyshomeostasis.
• Specific Aim 3: Astrocytic end-foot degeneration results in profound changes in gene and protein
expression and end-foot proteins can be used as biomarkers of end-foot degeneration.
Status | Active |
---|---|
Effective start/end date | 9/1/22 → 6/30/27 |
Funding
- National Institute on Aging
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Projects
- 1 Active
-
Strategies for Targeting Astrocyte Reactivity in Alzheimer's Disease and Related Dementias: Core A - Administrative Core
Norris, C., Bahrani, A., Bieberich, E., Gerhardt, G., Goldstein, L., Jiang, Y., Jicha, G., Katsumata, Y., Nelson, P., Niedowicz, D., Powell, D., Selenica, M., Sompol, P., Thibault, O., Van Eldik, L., Wang, W., Weekman, E., Gentry, M. & Wilcock, D.
9/1/22 → 6/30/27
Project: Research project