Systematic multi‐level analysis of an organelle proteome reveals new peroxisomal functions

Eden Yifrach; Duncan Holbrook‐Smith; Jérôme Bürgi; Alaa Othman; Miriam Eisenstein; Carlo WT vanRoermund; Wouter Visser; Asa Tirosh; Markus Rudowitz; Chen Bibi; Shahar Galor; Uri Weill; Amir Fadel; Yoav Peleg; Ralf Erdmann; Hans R Waterham; Ronald J A Wanders; Matthias Wilmanns; Nicola Zamboni; Maya Schuldiner; Einat Zalckvar

doi:10.15252/msb.202211186

Molecular Systems Biology (Sep 2022)

Systematic multi‐level analysis of an organelle proteome reveals new peroxisomal functions

Eden Yifrach,
Duncan Holbrook‐Smith,
Jérôme Bürgi,
Alaa Othman,
Miriam Eisenstein,
Carlo WT vanRoermund,
Wouter Visser,
Asa Tirosh,
Markus Rudowitz,
Chen Bibi,
Shahar Galor,
Uri Weill,
Amir Fadel,
Yoav Peleg,
Ralf Erdmann,
Hans R Waterham,
Ronald J A Wanders,
Matthias Wilmanns,
Nicola Zamboni,
Maya Schuldiner,
Einat Zalckvar

Affiliations

Eden Yifrach: Department of Molecular Genetics The Weizmann Institute of Science Rehovot Israel
Duncan Holbrook‐Smith: Institute of Molecular Systems Biology ETH Zurich Zurich Switzerland
Jérôme Bürgi: Hamburg Unit c/o DESY European Molecular Biology Laboratory (EMBL) Hamburg Germany
Alaa Othman: Institute of Molecular Systems Biology ETH Zurich Zurich Switzerland
Miriam Eisenstein: Department of Molecular Genetics The Weizmann Institute of Science Rehovot Israel
Carlo WT vanRoermund: Laboratory Genetic Metabolic Diseases, Department of Clinical Chemistry, Amsterdam Gastroenterology, Endocrinology & Metabolism Amsterdam University Medical Centers – Location AMC Amsterdam The Netherlands
Wouter Visser: Laboratory Genetic Metabolic Diseases, Department of Clinical Chemistry, Amsterdam Gastroenterology, Endocrinology & Metabolism Amsterdam University Medical Centers – Location AMC Amsterdam The Netherlands
Asa Tirosh: Life Sciences Core Facilities (LSCF) The Weizmann Institute of Science Rehovot Israel
Markus Rudowitz: Department of Systems Biochemistry, Institute of Biochemistry and Pathobiochemistry Ruhr‐University Bochum Bochum Germany
Chen Bibi: Department of Molecular Genetics The Weizmann Institute of Science Rehovot Israel
Shahar Galor: Department of Molecular Genetics The Weizmann Institute of Science Rehovot Israel
Uri Weill: Department of Molecular Genetics The Weizmann Institute of Science Rehovot Israel
Amir Fadel: Department of Molecular Genetics The Weizmann Institute of Science Rehovot Israel
Yoav Peleg: Life Sciences Core Facilities (LSCF) The Weizmann Institute of Science Rehovot Israel
Ralf Erdmann: Department of Systems Biochemistry, Institute of Biochemistry and Pathobiochemistry Ruhr‐University Bochum Bochum Germany
Hans R Waterham: Laboratory Genetic Metabolic Diseases, Department of Clinical Chemistry, Amsterdam Gastroenterology, Endocrinology & Metabolism Amsterdam University Medical Centers – Location AMC Amsterdam The Netherlands
Ronald J A Wanders: Laboratory Genetic Metabolic Diseases, Department of Clinical Chemistry, Amsterdam Gastroenterology, Endocrinology & Metabolism Amsterdam University Medical Centers – Location AMC Amsterdam The Netherlands
Matthias Wilmanns: Hamburg Unit c/o DESY European Molecular Biology Laboratory (EMBL) Hamburg Germany
Nicola Zamboni: Institute of Molecular Systems Biology ETH Zurich Zurich Switzerland
Maya Schuldiner: Department of Molecular Genetics The Weizmann Institute of Science Rehovot Israel
Einat Zalckvar: Department of Molecular Genetics The Weizmann Institute of Science Rehovot Israel

DOI: https://doi.org/10.15252/msb.202211186
Journal volume & issue: Vol. 18, no. 9
pp. n/a – n/a

Abstract

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Abstract Seventy years following the discovery of peroxisomes, their complete proteome, the peroxi‐ome, remains undefined. Uncovering the peroxi‐ome is crucial for understanding peroxisomal activities and cellular metabolism. We used high‐content microscopy to uncover peroxisomal proteins in the model eukaryote – Saccharomyces cerevisiae. This strategy enabled us to expand the known peroxi‐ome by ~40% and paved the way for performing systematic, whole‐organellar proteome assays. By characterizing the sub‐organellar localization and protein targeting dependencies into the organelle, we unveiled non‐canonical targeting routes. Metabolomic analysis of the peroxi‐ome revealed the role of several newly identified resident enzymes. Importantly, we found a regulatory role of peroxisomes during gluconeogenesis, which is fundamental for understanding cellular metabolism. With the current recognition that peroxisomes play a crucial part in organismal physiology, our approach lays the foundation for deep characterization of peroxisome function in health and disease.

Published in Molecular Systems Biology

ISSN: 1744-4292 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General); Medicine: Medicine (General)
Website: https://www.embopress.org/journal/17444292

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