R01AG082127

Single-Cell Transcriptomic and Epigenomic Analysis of Brain Cell Vulnerabilities to Tauopathies in Early AD-Impacted Brain Regions - Project Summary

Alzheimer's disease (AD) is an age-related, progressive neurodegenerative disease that leads to loss of brain cells and their connections. The existing literature provides a broad view of AD/ADRD-related molecular changes from heterogeneous cell populations. However, cell-specific and brain-region specific AD/ADRD-related loss of cells and connectivity is not yet resolved, particularly at a mechanistic level.

In response to RFA-AG-23-028, we have assembled a strong multi-investigator team across multiple institutions with complementary expertise in single-cell transcriptomics and epigenomics analysis, neural circuit mapping, and next-generation AD mouse model development. We will use multiple complementary lines of tau mouse models, in conjunction with ApoE genetic modulation or pathogenic triggers in targeted brain regions.

1) We will use the tau P301S transgenic mice on either a human ApoE4 knock-in background (TE4) or a mouse ApoE knock-out background (TEKO). TE4 knock-in markedly exacerbates tau-mediated neurodegeneration, while TEKO mice show largely attenuated neuronal loss and brain atrophy compared to P301S mice.

2) We will additionally use recently developed novel humanized tau mouse models that replace the endogenous mouse MAPT gene with either a normal or pathogenic variant of the entire human MAPT gene (MAPT gene replacement, MAPT-GR), which express all isoforms of human tau at physiologic levels and ratios.

We hypothesize that vulnerable cell types in early AD-impacted brain regions (locus coeruleus, entorhinal cortex, and hippocampal CA1 and subiculum) show early maladaptive gene expression profiles and epigenomic signatures that define their molecular vulnerability during AD/ADRD pathogenesis. To test our hypothesis, in Aim 1 we will apply single-cell epigenomics and transcriptomics technologies to early AD-impacted brain regions in age-matched control and AD mice, creating cell-type-resolved multi-omic maps of gene expression and chromatin accessibility.

Tauopathy progression unfolds in an age-dependent manner, thus we will compare control and pathological tau model mice at two different ages each for different mouse lines (4 months, 10 months for TE and TEKO; 6 months, 12 months for MAPT-GR lines) based upon their behavioral and neuropathological characterization.

In Aim 2, we will use the multiplexed error-robust fluorescence in situ hybridization (MERFISH) technology to generate single-cell resolution spatial transcriptomic maps for the early AD-impacted brain regions. MERFISH will extend single-cell omics and spatial genomics to map neural circuits and pathologies at high spatial resolution.

In Aim 3, we will perform computational analysis to integrate single-cell multi-omics data, image-based anatomical and molecular gene expression maps from Aims 1-2, acquired from different mouse models at different ages, to fully characterize the neuronal circuits and AD-vulnerability at the cellular level.

The proposed research is well aligned to the RFA goals and is expected to provide new biological insights into AD/ADRD pathogenesis at unprecedented cellular and spatial resolution.

Irvine University Of California

TO ENCOURAGE BIOMEDICAL, SOCIAL, AND BEHAVIORAL RESEARCH AND RESEARCH TRAINING DIRECTED TOWARD GREATER UNDERSTANDING OF THE AGING PROCESS AND THE DISEASES, SPECIAL PROBLEMS, AND NEEDS OF PEOPLE AS THEY AGE. THE NATIONAL INSTITUTE ON AGING HAS ESTABLISHED PROGRAMS TO PURSUE THESE GOALS. THE DIVISION OF AGING BIOLOGY EMPHASIZES UNDERSTANDING THE BASIC BIOLOGICAL PROCESSES OF AGING. THE DIVISION OF GERIATRICS AND CLINICAL GERONTOLOGY SUPPORTS RESEARCH TO IMPROVE THE ABILITIES OF HEALTH CARE PRACTITIONERS TO RESPOND TO THE DISEASES AND OTHER CLINICAL PROBLEMS OF OLDER PEOPLE. THE DIVISION OF BEHAVIORAL AND SOCIAL RESEARCH SUPPORTS RESEARCH THAT WILL LEAD TO GREATER UNDERSTANDING OF THE SOCIAL, CULTURAL, ECONOMIC AND PSYCHOLOGICAL FACTORS THAT AFFECT BOTH THE PROCESS OF GROWING OLD AND THE PLACE OF OLDER PEOPLE IN SOCIETY. THE DIVISION OF NEUROSCIENCE FOSTERS RESEARCH CONCERNED WITH THE AGE-RELATED CHANGES IN THE NERVOUS SYSTEM AS WELL AS THE RELATED SENSORY, PERCEPTUAL, AND COGNITIVE PROCESSES ASSOCIATED WITH AGING AND HAS A SPECIAL EMPHASIS ON ALZHEIMER'S DISEASE. SMALL BUSINESS INNOVATION RESEARCH (SBIR) PROGRAM: TO EXPAND AND IMPROVE THE SBIR PROGRAM, TO INCREASE PRIVATE SECTOR COMMERCIALIZATION OF INNOVATIONS DERIVED FROM FEDERAL RESEARCH AND DEVELOPMENT, TO INCREASE SMALL BUSINESS PARTICIPATION IN FEDERAL RESEARCH AND DEVELOPMENT, AND TO FOSTER AND ENCOURAGE PARTICIPATION OF SOCIALLY AND ECONOMICALLY DISADVANTAGED SMALL BUSINESS CONCERNS AND WOMEN-OWNED SMALL BUSINESS CONCERNS IN TECHNOLOGICAL INNOVATION. SMALL BUSINESS TECHNOLOGY TRANSFER (STTR) PROGRAM: TO STIMULATE AND FOSTER SCIENTIFIC AND TECHNOLOGICAL INNOVATION THROUGH COOPERATIVE RESEARCH DEVELOPMENT CARRIED OUT BETWEEN SMALL BUSINESS CONCERNS AND RESEARCH INSTITUTIONS, TO FOSTER TECHNOLOGY TRANSFER BETWEEN SMALL BUSINESS CONCERNS AND RESEARCH INSTITUTIONS, TO INCREASE PRIVATE SECTOR COMMERCIALIZATION OF INNOVATIONS DERIVED FROM FEDERAL RESEARCH AND DEVELOPMENT, AND TO FOSTER AND ENCOURAGE PARTICIPATION OF SOCIALLY AND ECONOMICALLY DISADVANTAGED SMALL BUSINESS CONCERNS AND WOMEN-OWNED SMALL BUSINESS CONCERNS IN TECHNOLOGICAL INNOVATION.

93.866 - Aging Research

National Institute on Aging (NIA) [HHS - NIH]

Irvine, California 926970001 United States

Single Zip Code

Neuronal Vulnerability to Proteinopathies in Alzheimers Disease and Alzheimers Disease-Related Dementias (R01 Clinical Trial Not Allowed) (RFA-AG-23-028)

Amendment Since initial award the total obligations have increased 191% from $2,094,544 to $6,093,858.