Principal Investigators

    SHARMA, MANU

    Institution

    WEILL MEDICAL COLL OF CORNELL UNIV

    Contact information of lead PI

    Country

    USA

    Title of project or programme

    DnaJ co-chaperones which modify tau aggregation and neurodegeneration

    Source of funding information

    NIH (NIA)

    Total sum awarded (Euro)

    € 1,749,426.61

    Start date of award

    01/08/2016

    Total duration of award in years

    1

    The project/programme is most relevant to:

    Alzheimer's disease & other dementias

    Keywords

    Acquired Cognitive Impairment... Aging... Alzheimer's Disease... Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD)... Brain Disorders... Dementia... Neurodegenerative... Neurosciences

    Research Abstract

    ? DESCRIPTION (provided by applicant): Tau aggregation is a hallmark of a growing list of over 20 neurodegenerative diseases, including Alzheimer’s disease (AD). The overall objective of the proposed research is to identify a molecular mechanism underlying tau proteostasis, and to determine in vivo how this mechanism modifies tau aggregation and neurodegeneration. Chaperones are key mediators of proteostasis, and the chaperone protein Hsc70 is known to bind tau directly. However, the fate of Hsc70-bound clients is determined by co-chaperones. In a targeted screen for DnaJ co-chaperones that act on tau in neurons, the PI’s lab identified two co-chaperones that affect tau in diametrically opposite directions: CSP? (cysteine string protein-?) increases tau levels and stability, while Hsj1 (Homo sapiens DnaJ1) leads to tau degradation. Each of these co-chaperones bind tau in distinct chaperone- complexes: the CSP?/Hsc70/SGT-foldase complex and the Hsj1/Hsc70/CHIP-degradase complex. This study will test the central hypothesis that tau aggregation and neurodegeneration are ameliorated by the activities of these two chaperone machines: tau is stabilized by the CSP?/Hsc70/SGT-foldase complex, and tau is degraded via the Hsj1/Hsc70/CHIP-degradase complex. To test this hypothesis, three specific aims are proposed: Aim 1. Determine how CSP? affects tau stability and aggregation. Aim 2. Determine how Hsj1 affects tau stability and aggregation. In these two aims, actions of CSP? and Hsj1 on tau will be elucidated in molecular de- tail, using purified proteins and primary neurons. Aim 3. Determine how CSP? and Hsj1 affect tau-dependent neurodegeneration in vivo, in mouse models of tauopathic neurodegeneration. Completion of these studies is expected to identify two molecular processes which reduce tau aggregation, by either chaperoning (via CSP?) or degrading (via Hsj1) the Hsc70-bound tau, as well as to reveal how these proteostatic activities affect tau- driven neurodegeneration in vivo. The proposed study is innovative, because two new functions of Hsj1 and CSP? on their new client tau are proposed, and because of the use of a comprehensive experimental approach including, a) purified proteins to reconstitute molecular interactions, b) lentiviral vectors for knocking down and overexpressing CSP? and Hsj1 in primary neurons, c) stereotactic mouse brain injections of lentiviral vectors to study CSP? and Hsj1 effects on neurodegeneration in vivo, d) using patient brain samples to establish relevance of the findings to human Alzheimer’s disease pathology. The proposed study is significant because a) understanding how neurons prevent tau from aggregating will establish therapeutic targets com- mon to multiple tauopathies, including Alzheimer’s disease, b) the concept of multifaceted proteostasis, where protein aggregation is reduced by the integrated action of “”degradase”” and “”foldase”” mechanisms, can be readily translated to other neurodegeneration-linked proteins, and c) understanding cellular proteostasis mechanisms of misfolding-prone proteins may reveal clues to sporadic versions of Alzheimer’s disease and other neurodegenerative diseases for which age is the most robust risk factor.

    Lay Summary

    PUBLIC HEALTH RELEVANCE: The proposed research is relevant to public health and timely, because aging populations across the globe amplify the burden of Alzheimer’s disease and other tauopathies, which are progressive neurodegenerative diseases with no known cure. This study is relevant to the NIH’s mission because it will reveal molecular mechanisms which normally prevent tau from accumulating as aggregates in brains, and will thus uncover new molecular targets which can be manipulated for treating tauopathies, including Alzheimer’s disease.

    Further information available at:

Types: Investments > €500k
Member States: United States of America
Diseases: Alzheimer's disease & other dementias
Years: 2016
Database Categories: N/A
Database Tags: N/A

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