BIOMARKER DISCOVERY AND VALIDATION IN PSP

Project: Research project

Project Details

Description

ABSTRACT Progressive supranuclear palsy (PSP) is a devastating atypical parkinsonian disorder that currently lacks meaningful symptomatic therapies, reduces lifespan and greatly impairs daily function and quality of life. It is often difficult to distinguish from Parkinson disease (PD) clinically, which is crucial for appropriate and timely management, prognosis and clinical trial enrollment. Despite a critical need for a reliable diagnostic marker for parkinsonian disorders, there is currently no biomarker that can be used in routine clinical practice to distinguish between PSP and PD. The purpose of this project is to discover cerebrospinal fluid (CSF) biomarkers that reliably distinguish between PSP, PD and healthy individuals. The difficulty of identifying reliable biomarkers can be attributed to the variability of clinical samples, low abundance of proteins that are involved in the pathogenesis of PSP and PD, and the lack of reproducibility in validating biomarker candidates. To overcome these limitations, we propose use of a large CSF cohort with greater statistical power for true discovery, and deep proteome analysis to reveal PSP biomarkers that are involved in PSP pathogenesis, but are present at low abundance. In addition, multiplexed sample analysis by isobaric tandem mass tagging (TMT) with a common reference for data normalization will ensure robust analytical precision of quantitative proteomic data for discovery from a larger set of samples. Moreover, additional proteomic analysis of brain tissue will be used to select those biomarkers that show differential expression in CSF as well as the globus pallidus, a representative brain region used to pathologically define PSP. These discovery platforms will utilize a bioinformatics approach to select the most plausible candidates for targeted validation studies followed by an intensive validation of the discovered biomarker candidates. To achieve these goals, we propose four aims: Specific Aim 1: To prospectively collect CSF on patients with clinically well-characterized PSP. Specific Aim 2: To discover proteins that are differentially expressed in patients with PSP compared to controls and PD. We plan to carry out a quantitative proteomic analysis of CSF and globus pallidus samples from patients with PSP, PD and from controls by employing TMT-based multiplexing technology. With this approach, we expect to obtain a more comprehensive coverage of a larger number of proteins quantified across the analyzed samples. Specific Aim 3: To prioritize PSP biomarker candidates based on an integrative analysis of alterations in CSF and globus pallidus. By integrating the expression changes in CSF and brain tissue with a network approach that takes advantage of the known biological pathways that have been described in PSP, our proposal will be able to select reliable PSP biomarker candidates for validation by targeted PRM experiments. Specific Aim 4: To validate candidate protein biomarkers in a larger cohort using targeted parallel reaction monitoring (PRM) mass spectrometry using CSF samples from a PSP cohort at Johns Hopkins University, the University of Pennsylvania, UCSF and PDBP. Biomarkers that are selected by algorithms based on these PRM experiments will finally be confirmed using blinded PDBP CSF samples from PSP and will be compared to CSF samples from PD. Through the approaches outlined above, we expect to discover and validate reliable PSP biomarkers that are distinguishable from PD in a reproducible manner.
StatusNot started

Funding

  • National Institute of Neurological Disorders and Stroke: $928,403.00

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