Integrated phenotypic and proteomic screening identifies top-tier Alzheimer’s disease therapeutic targets

  1. Gregory A Cary
  2. Qianjin Li
  3. Jesse C Wiley
  4. Carolyn A Paisie
  5. Yuhong Du
  6. Elizabeth L Zoeller
  7. Duc Duong
  8. Haian Fu
  9. Nicholas T. Seyfried
  10. Allan I. Levey
  11. Ranjita Betarbet
  12. Gregory W Carter
  13. The Emory-Sage-SGC-JAX TREAT-AD Center
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Abstract

Introduction

Alzheimer’s disease (AD) is a complex neurodegenerative disorder. Hundreds of therapeutic targets have been nominated through genetic and multi-omic studies, but effective prioritization remains a major bottleneck.

Methods

We applied an integrative screening framework to assess 29 candidate targets from risk-enriched biological domains. Using disease-relevant murine BV2 microglial cell lines with stable Psen2 knockdown, we performed siRNA-mediated perturbations followed by cellular phenotypic assays and quantitative proteomics.

Results

Twenty-five candidate targets significantly altered at least one phenotype, with stronger effects in Psen2 knockdown cells. Integrated proteomic analyses identified several perturbations that reversed AD-associated molecular patterns. Five targets—Ap2a2, Pdhb, Pdha1, Dlat, and Psmc3— impacted both phenotypes and related proteomic responses.

Discussion

We established a scalable platform for target functional validation that bridges unbiased systems-level assessments of AD risk with experimental evidence. The ESSJ TREAT-AD center will prioritize further resource development for these validated targets.

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