Research Project
10304089
PROJECT SUMMARY Pathological tau deposition occurs in a subset of neurodegenerative disorders including frontotemporal lobar degeneration with tau inclusions (FTLD-tau). Much of what is known about FTLD-tau is derived from mutant tau models or overexpression. However, a unified view of overall tau metabolism?from its initial production, interactions with molecular chaperones, post-translational modifications, targeting to lysosomes/autophagy, and resultant degradation, to our knowledge has not been generated The long- term goal of this proposed FTD Center without Walls (CWOW) is to improve our understanding of the pathobiological mechanisms underlying FTD-tau. Its overall objective is to elucidate the genes, molecules and pathways that regulate tau metabolism and to determine the impact of disease- associated mutations and variants. Our central hypothesis is that proper tau metabolism requires the precise, coordinated action of molecular chaperones, co-chaperones, PTMs and degradation machinery that each represent regulatory nodes. Genetic mutations in tau and other pathway members can disrupt tau metabolism, leading to tau accumulation, secretion and neurodegeneration. The Center will be led by Dr. Aimee Kao, who will also lead Core A: Administration and Data Core (with Co-lead Dr. Yokoyama) and Project 1: Tau Molecular Chaperones, targeting and proteolysis (with Co-I Dr. Agard). Dr. David Agard will oversee Core B: Macromolecular and Cellular Structure Core. Dr. Jennifer Yokoyama will lead Core C: Genomics and Transcriptomics. Finally, Dr. Celeste Karch will lead Project 2: Tau Half Life and Secretion. We will achieve these objectives through four Specific Aims. Aim 1: Understand the normal process of tau metabolism as a series of decisions that are made at regulatory nodes. Aim 2: Identify and test the functional relevance of genetic variants in MAPT and other tau metabolism genes, in in vitro, cell and iNeuron models, on each of the tau metabolism regulatory nodes. Aim 3: Integrate findings from Projects and Cores to produce a Tau Metabolism and Variant Database (TMVdb), that will serve as a reference point for the field. Aim 4: Integrate findings from Projects and Cores to produce a Tau Polygenic Risk Score (TPRS), which will stratify genetic risk for tauopathy. Upon successful completion of these Aims, the proposed FTD CWOW will have provided fundamental information about tau metabolism, defined mechanistic nodes predisposing to tauopathy and generated the TMVdb and TPRS, new resources for the fields of tauopathy and neurodegeneration research. It will generate critically important information about tau homeostasis and a foundational basis from which to build and frame subsequent investigations into tau pathobiology and toxicity.
