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

Eden Yifrach; Duncan Holbrook-Smith; Jérôme Bürgi; Alaa Othman; Miriam Eisenstein; Carlo W.T. van Roermund; 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

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

Eden Yifrach
, Duncan Holbrook-Smith
, Jérôme Bürgi
, Alaa Othman
, Miriam Eisenstein
, Carlo W.T. van Roermund
, 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

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

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.

Original language	English
Article number	e11186
Journal	Molecular Systems Biology
Volume	18
Issue number	9
DOIs	https://doi.org/10.15252/msb.202211186
State	Published - Sep 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 The Authors. Published under the terms of the CC BY 4.0 license.

Keywords

Saccharomyces cerevisiae
high-content screen
high-resolution imaging
peroxisome
protein targeting

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10.15252/msb.202211186

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Yifrach, E., Holbrook-Smith, D., Bürgi, J., Othman, A., Eisenstein, M., van Roermund, C. W. T., Visser, W., Tirosh, A., Rudowitz, M., Bibi, C., Galor, S., Weill, U., Fadel, A., Peleg, Y., Erdmann, R., Waterham, H. R., Wanders, R. J. A., Wilmanns, M., Zamboni, N., ... Zalckvar, E. (2022). Systematic multi-level analysis of an organelle proteome reveals new peroxisomal functions. Molecular Systems Biology, 18(9), Article e11186. https://doi.org/10.15252/msb.202211186

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title = "Systematic multi-level analysis of an organelle proteome reveals new peroxisomal functions",

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 \textasciitilde{}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.",

keywords = "Saccharomyces cerevisiae, high-content screen, high-resolution imaging, peroxisome, protein targeting",

author = "Eden Yifrach and Duncan Holbrook-Smith and J{\'e}r{\^o}me B{\"u}rgi and Alaa Othman and Miriam Eisenstein and \{van Roermund\}, \{Carlo W.T.\} and Wouter Visser and Asa Tirosh and Markus Rudowitz and Chen Bibi and Shahar Galor and Uri Weill and Amir Fadel and Yoav Peleg and Ralf Erdmann and Waterham, \{Hans R.\} and Wanders, \{Ronald J.A.\} and Matthias Wilmanns and Nicola Zamboni and Maya Schuldiner and Einat Zalckvar",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Published under the terms of the CC BY 4.0 license.",

year = "2022",

month = sep,

doi = "10.15252/msb.202211186",

language = "אנגלית",

volume = "18",

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Yifrach, E, Holbrook-Smith, D, Bürgi, J, Othman, A, Eisenstein, M, van Roermund, CWT, Visser, W, Tirosh, A, Rudowitz, M, Bibi, C, Galor, S, Weill, U, Fadel, A, Peleg, Y, Erdmann, R, Waterham, HR, Wanders, RJA, Wilmanns, M, Zamboni, N, Schuldiner, M & Zalckvar, E 2022, 'Systematic multi-level analysis of an organelle proteome reveals new peroxisomal functions', Molecular Systems Biology, vol. 18, no. 9, e11186. https://doi.org/10.15252/msb.202211186

TY - JOUR

T1 - Systematic multi-level analysis of an organelle proteome reveals new peroxisomal functions

AU - Yifrach, Eden

AU - Holbrook-Smith, Duncan

AU - Bürgi, Jérôme

AU - Othman, Alaa

AU - Eisenstein, Miriam

AU - van Roermund, Carlo W.T.

AU - Visser, Wouter

AU - Tirosh, Asa

AU - Rudowitz, Markus

AU - Bibi, Chen

AU - Galor, Shahar

AU - Weill, Uri

AU - Fadel, Amir

AU - Peleg, Yoav

AU - Erdmann, Ralf

AU - Waterham, Hans R.

AU - Wanders, Ronald J.A.

AU - Wilmanns, Matthias

AU - Zamboni, Nicola

AU - Schuldiner, Maya

AU - Zalckvar, Einat

PY - 2022/9

Y1 - 2022/9

N2 - 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.

AB - 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.

KW - Saccharomyces cerevisiae

KW - high-content screen

KW - high-resolution imaging

KW - peroxisome

KW - protein targeting

UR - https://www.scopus.com/pages/publications/85138623210

U2 - 10.15252/msb.202211186

DO - 10.15252/msb.202211186

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C2 - 36164978

AN - SCOPUS:85138623210

SN - 1744-4292

VL - 18

JO - Molecular Systems Biology

JF - Molecular Systems Biology

IS - 9

M1 - e11186

ER -

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

Abstract

Bibliographical note

Keywords

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