Integrative proteomics identifies a conserved Aβ amyloid responsome, novel plaque proteins, and pathology modifiers in Alzheimer’s disease

Yona Levites; Eric B. Dammer; Yong Ran; Wangchen Tsering; Duc M. Duong; Measho Abreha; Joshna Gadhavi; Kiara Lolo; Jorge Trejo‐Lopez; Jennifer Phillips; Andrea Iturbe; Aya Erquizi; Brenda D. Moore; Danny Ryu; Aditya Natu; Kristy Dillon; Jose Torrellas; Corey Moran; Thomas B. Ladd; Farhana Afroz; Tariful Islam; Jaishree Jagirdar; Cory C. Funk; Max Robinson; Srikant Rangaraju; David Borchelt; Nilüfer Ertekin‐Taner; Jeffrey W. Kelly; Frank L. Heppner; Erik C. B. Johnson; Karen N. McFarland; Allan I. Levey; Stefan Prokop; Nicholas T. Seyfried; Todd E. Golde

doi:10.1016/j.xcrm.2024.101669

Integrative proteomics identifies a conserved Aβ amyloid responsome, novel plaque proteins, and pathology modifiers in Alzheimer’s disease

Yona Levites(Emory University), Eric B. Dammer(Emory University), Yong Ran(Emory University), Wangchen Tsering(University of Florida), Duc M. Duong(Emory University), Measho Abreha(Emory University), Joshna Gadhavi(Emory University), Kiara Lolo(University of Florida), Jorge Trejo‐Lopez(University of Florida), Jennifer Phillips(University of Florida), Andrea Iturbe(University of Florida), Aya Erquizi(University of Florida), Brenda D. Moore(Emory University), Danny Ryu(Emory University), Aditya Natu(Emory University), Kristy Dillon(University of Florida), Jose Torrellas(University of Florida), Corey Moran(University of Florida), Thomas B. Ladd(University of Florida), Farhana Afroz(Emory University), Tariful Islam(Emory University), Jaishree Jagirdar(Emory University Hospital), Cory C. Funk(Institute for Systems Biology), Max Robinson(Institute for Systems Biology), Srikant Rangaraju(Yale University), David Borchelt(University of Florida), Nilüfer Ertekin‐Taner(Jacksonville College), Jeffrey W. Kelly(Scripps Research Institute), Frank L. Heppner(German Center for Neurodegenerative Diseases), Erik C. B. Johnson(Emory University), Karen N. McFarland(Emory University), Allan I. Levey(Emory University), Stefan Prokop(University of Florida), Nicholas T. Seyfried(Emory University), Todd E. Golde(Emory University)

Cell Reports Medicine

August 1, 2024

10.1016/j.xcrm.2024.101669

Cited by 40Open Access

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Abstract

Alzheimer's disease (AD) is a complex neurodegenerative disorder that develops over decades. AD brain proteomics reveals vast alterations in protein levels and numerous altered biologic pathways. Here, we compare AD brain proteome and network changes with the brain proteomes of amyloid β (Aβ)-depositing mice to identify conserved and divergent protein networks with the conserved networks identifying an Aβ amyloid responsome. Proteins in the most conserved network (M42) accumulate in plaques, cerebrovascular amyloid (CAA), and/or dystrophic neuronal processes, and overexpression of two M42 proteins, midkine (Mdk) and pleiotrophin (PTN), increases the accumulation of Aβ in plaques and CAA. M42 proteins bind amyloid fibrils in vitro, and MDK and PTN co-accumulate with cardiac transthyretin amyloid. M42 proteins appear intimately linked to amyloid deposition and can regulate amyloid deposition, suggesting that they are pathology modifiers and thus putative therapeutic targets. We posit that amyloid-scaffolded accumulation of numerous M42+ proteins is a central mechanism mediating downstream pathophysiology in AD.

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