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Literature DB >> 28131822

Genome-Scale Networks Link Neurodegenerative Disease Genes to α-Synuclein through Specific Molecular Pathways.

Vikram Khurana¹, Jian Peng², Chee Yeun Chung³, Pavan K Auluck³, Saranna Fanning³, Daniel F Tardiff³, Theresa Bartels³, Martina Koeva⁴, Stephen W Eichhorn³, Hadar Benyamini³, Yali Lou³, Andy Nutter-Upham³, Valeriya Baru³, Yelena Freyzon³, Nurcan Tuncbag⁵, Michael Costanzo⁶, Bryan-Joseph San Luis⁶, David C Schöndorf⁷, M Inmaculada Barrasa³, Sepehr Ehsani³, Neville Sanjana⁸, Quan Zhong⁹, Thomas Gasser⁷, David P Bartel³, Marc Vidal¹⁰, Michela Deleidi⁷, Charles Boone⁶, Ernest Fraenkel¹¹, Bonnie Berger¹², Susan Lindquist¹³.

Abstract

Numerous genes and molecular pathways are implicated in neurodegenerative proteinopathies, but their inter-relationships are poorly understood. We systematically mapped molecular pathways underlying the toxicity of alpha-synuclein (α-syn), a protein central to Parkinson's disease. Genome-wide screens in yeast identified 332 genes that impact α-syn toxicity. To "humanize" this molecular network, we developed a computational method, TransposeNet. This integrates a Steiner prize-collecting approach with homology assignment through sequence, structure, and interaction topology. TransposeNet linked α-syn to multiple parkinsonism genes and druggable targets through perturbed protein trafficking and ER quality control as well as mRNA metabolism and translation. A calcium signaling hub linked these processes to perturbed mitochondrial quality control and function, metal ion transport, transcriptional regulation, and signal transduction. Parkinsonism gene interaction profiles spatially opposed in the network (ATP13A2/PARK9 and VPS35/PARK17) were highly distinct, and network relationships for specific genes (LRRK2/PARK8, ATXN2, and EIF4G1/PARK18) were confirmed in patient induced pluripotent stem cell (iPSC)-derived neurons. This cross-species platform connected diverse neurodegenerative genes to proteinopathy through specific mechanisms and may facilitate patient stratification for targeted therapy.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: LRRK2; Parkinson’s disease; RNA-binding protein; VPS35; alpha-synuclein; iPS cell; mRNA translation; stem cell; vesicle trafficking; yeast

Mesh：

Substances：

Year: 2017 PMID： 28131822 PMCID： PMC5388136 DOI： 10.1016/j.cels.2016.12.011

Source DB: PubMed Journal: Cell Syst ISSN： 2405-4712 Impact factor: 10.304

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