Ubiquitinome Profiling Reveals in Vivo UBE2D3 Targets and Implicates UBE2D3 in Protein Quality Control

Zeliha Yalçin; Daniëlle Koot; Karel Bezstarosti; Daniel Salas-Lloret; Onno B. Bleijerveld; Vera Boersma; Mattia Falcone; Román González-Prieto; Maarten Altelaar; Jeroen A.A. Demmers; Jacqueline J.L. Jacobs

doi:10.1016/j.mcpro.2023.100548

Ubiquitinome Profiling Reveals in Vivo UBE2D3 Targets and Implicates UBE2D3 in Protein Quality Control

Zeliha Yalçin, Daniëlle Koot, Karel Bezstarosti, Daniel Salas-Lloret, Onno B. Bleijerveld, Vera Boersma, Mattia Falcone, Román González-Prieto, Maarten Altelaar, Jeroen A.A. Demmers, Jacqueline J.L. Jacobs^*

^*Corresponding author for this work

Biochemistry

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

5 Citations (Scopus)

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Abstract

Ubiquitination has crucial roles in many cellular processes, and dysregulation of ubiquitin machinery enzymes can result in various forms of pathogenesis. Cells only have a limited set of ubiquitin-conjugating (E2) enzymes to support the ubiquitination of many cellular targets. As individual E2 enzymes have many different substrates and interactions between E2 enzymes and their substrates can be transient, it is challenging to define all in vivo substrates of an individual E2 and the cellular processes it affects. Particularly challenging in this respect is UBE2D3, an E2 enzyme with promiscuous activity in vitro but less defined roles in vivo. Here, we set out to identify in vivo targets of UBE2D3 by using stable isotope labeling by amino acids in cell culture-based and label-free quantitative ubiquitin diGly proteomics to study global proteome and ubiquitinome changes associated with UBE2D3 depletion. UBE2D3 depletion changed the global proteome, with the levels of proteins from metabolic pathways, in particular retinol metabolism, being the most affected. However, the impact of UBE2D3 depletion on the ubiquitinome was much more prominent. Interestingly, molecular pathways related to mRNA translation were the most affected. Indeed, we find that ubiquitination of the ribosomal proteins RPS10 and RPS20, critical for ribosome-associated protein quality control, is dependent on UBE2D3. We show by Targets of Ubiquitin Ligases Identified by Proteomics 2 methodology that RPS10 and RPS20 are direct targets of UBE2D3 and demonstrate that the catalytic activity of UBE2D3 is required to ubiquitinate RPS10 in vivo. In addition, our data suggest that UBE2D3 acts at multiple levels in autophagic protein quality control. Collectively, our findings show that depletion of an E2 enzyme in combination with quantitative diGly-based ubiquitinome profiling is a powerful tool to identify new in vivo E2 substrates, as we have done here for UBE2D3. Our work provides an important resource for further studies on the in vivo functions of UBE2D3.

Original language	English
Article number	100548
Journal	Molecular & cellular proteomics : MCP
Volume	22
Issue number	6
DOIs	https://doi.org/10.1016/j.mcpro.2023.100548
Publication status	Published - 1 Jun 2023

Bibliographical note

Funding and additional information
This work was supported by an institutional grant of the Dutch Cancer Society and of the Dutch Ministry of Health, Welfare and Sport to the Netherlands Cancer Institute, by a Research Project Grant from the Dutch Cancer Society (grant no.: KWF-NKI2012-5305) to J. J. L. J., by a Young Investigator Grant from the Dutch Cancer Society (grant no.: 11369/2017-2) to R. G.-P., and by the X-omics Initiative, part of the NWO National Roadmap for Large-Scale Research Infrastructures, to M. A.

Publisher Copyright:
Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.

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1-s2.0-S1535947623000580-mainFinal published version, 2.46 MBLicence: CC BY

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Yalçin, Z., Koot, D., Bezstarosti, K., Salas-Lloret, D., Bleijerveld, O. B., Boersma, V., Falcone, M., González-Prieto, R., Altelaar, M., Demmers, J. A. A., & Jacobs, J. J. L. (2023). Ubiquitinome Profiling Reveals in Vivo UBE2D3 Targets and Implicates UBE2D3 in Protein Quality Control. Molecular & cellular proteomics : MCP, 22(6), Article 100548. https://doi.org/10.1016/j.mcpro.2023.100548

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abstract = "Ubiquitination has crucial roles in many cellular processes, and dysregulation of ubiquitin machinery enzymes can result in various forms of pathogenesis. Cells only have a limited set of ubiquitin-conjugating (E2) enzymes to support the ubiquitination of many cellular targets. As individual E2 enzymes have many different substrates and interactions between E2 enzymes and their substrates can be transient, it is challenging to define all in vivo substrates of an individual E2 and the cellular processes it affects. Particularly challenging in this respect is UBE2D3, an E2 enzyme with promiscuous activity in vitro but less defined roles in vivo. Here, we set out to identify in vivo targets of UBE2D3 by using stable isotope labeling by amino acids in cell culture-based and label-free quantitative ubiquitin diGly proteomics to study global proteome and ubiquitinome changes associated with UBE2D3 depletion. UBE2D3 depletion changed the global proteome, with the levels of proteins from metabolic pathways, in particular retinol metabolism, being the most affected. However, the impact of UBE2D3 depletion on the ubiquitinome was much more prominent. Interestingly, molecular pathways related to mRNA translation were the most affected. Indeed, we find that ubiquitination of the ribosomal proteins RPS10 and RPS20, critical for ribosome-associated protein quality control, is dependent on UBE2D3. We show by Targets of Ubiquitin Ligases Identified by Proteomics 2 methodology that RPS10 and RPS20 are direct targets of UBE2D3 and demonstrate that the catalytic activity of UBE2D3 is required to ubiquitinate RPS10 in vivo. In addition, our data suggest that UBE2D3 acts at multiple levels in autophagic protein quality control. Collectively, our findings show that depletion of an E2 enzyme in combination with quantitative diGly-based ubiquitinome profiling is a powerful tool to identify new in vivo E2 substrates, as we have done here for UBE2D3. Our work provides an important resource for further studies on the in vivo functions of UBE2D3.",

author = "Zeliha Yal{\c c}in and Dani{\"e}lle Koot and Karel Bezstarosti and Daniel Salas-Lloret and Bleijerveld, {Onno B.} and Vera Boersma and Mattia Falcone and Rom{\'a}n Gonz{\'a}lez-Prieto and Maarten Altelaar and Demmers, {Jeroen A.A.} and Jacobs, {Jacqueline J.L.}",

note = "Funding and additional information This work was supported by an institutional grant of the Dutch Cancer Society and of the Dutch Ministry of Health, Welfare and Sport to the Netherlands Cancer Institute, by a Research Project Grant from the Dutch Cancer Society (grant no.: KWF-NKI2012-5305) to J. J. L. J., by a Young Investigator Grant from the Dutch Cancer Society (grant no.: 11369/2017-2) to R. G.-P., and by the X-omics Initiative, part of the NWO National Roadmap for Large-Scale Research Infrastructures, to M. A. Publisher Copyright: Copyright {\textcopyright} 2023 The Authors. Published by Elsevier Inc. All rights reserved.",

year = "2023",

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Yalçin, Z, Koot, D, Bezstarosti, K, Salas-Lloret, D, Bleijerveld, OB, Boersma, V, Falcone, M, González-Prieto, R, Altelaar, M, Demmers, JAA & Jacobs, JJL 2023, 'Ubiquitinome Profiling Reveals in Vivo UBE2D3 Targets and Implicates UBE2D3 in Protein Quality Control', Molecular & cellular proteomics : MCP, vol. 22, no. 6, 100548. https://doi.org/10.1016/j.mcpro.2023.100548

TY - JOUR

T1 - Ubiquitinome Profiling Reveals in Vivo UBE2D3 Targets and Implicates UBE2D3 in Protein Quality Control

AU - Yalçin, Zeliha

AU - Koot, Daniëlle

AU - Bezstarosti, Karel

AU - Salas-Lloret, Daniel

AU - Bleijerveld, Onno B.

AU - Boersma, Vera

AU - Falcone, Mattia

AU - González-Prieto, Román

AU - Altelaar, Maarten

AU - Demmers, Jeroen A.A.

AU - Jacobs, Jacqueline J.L.

N1 - Funding and additional information This work was supported by an institutional grant of the Dutch Cancer Society and of the Dutch Ministry of Health, Welfare and Sport to the Netherlands Cancer Institute, by a Research Project Grant from the Dutch Cancer Society (grant no.: KWF-NKI2012-5305) to J. J. L. J., by a Young Investigator Grant from the Dutch Cancer Society (grant no.: 11369/2017-2) to R. G.-P., and by the X-omics Initiative, part of the NWO National Roadmap for Large-Scale Research Infrastructures, to M. A. Publisher Copyright: Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.

PY - 2023/6/1

Y1 - 2023/6/1

N2 - Ubiquitination has crucial roles in many cellular processes, and dysregulation of ubiquitin machinery enzymes can result in various forms of pathogenesis. Cells only have a limited set of ubiquitin-conjugating (E2) enzymes to support the ubiquitination of many cellular targets. As individual E2 enzymes have many different substrates and interactions between E2 enzymes and their substrates can be transient, it is challenging to define all in vivo substrates of an individual E2 and the cellular processes it affects. Particularly challenging in this respect is UBE2D3, an E2 enzyme with promiscuous activity in vitro but less defined roles in vivo. Here, we set out to identify in vivo targets of UBE2D3 by using stable isotope labeling by amino acids in cell culture-based and label-free quantitative ubiquitin diGly proteomics to study global proteome and ubiquitinome changes associated with UBE2D3 depletion. UBE2D3 depletion changed the global proteome, with the levels of proteins from metabolic pathways, in particular retinol metabolism, being the most affected. However, the impact of UBE2D3 depletion on the ubiquitinome was much more prominent. Interestingly, molecular pathways related to mRNA translation were the most affected. Indeed, we find that ubiquitination of the ribosomal proteins RPS10 and RPS20, critical for ribosome-associated protein quality control, is dependent on UBE2D3. We show by Targets of Ubiquitin Ligases Identified by Proteomics 2 methodology that RPS10 and RPS20 are direct targets of UBE2D3 and demonstrate that the catalytic activity of UBE2D3 is required to ubiquitinate RPS10 in vivo. In addition, our data suggest that UBE2D3 acts at multiple levels in autophagic protein quality control. Collectively, our findings show that depletion of an E2 enzyme in combination with quantitative diGly-based ubiquitinome profiling is a powerful tool to identify new in vivo E2 substrates, as we have done here for UBE2D3. Our work provides an important resource for further studies on the in vivo functions of UBE2D3.

AB - Ubiquitination has crucial roles in many cellular processes, and dysregulation of ubiquitin machinery enzymes can result in various forms of pathogenesis. Cells only have a limited set of ubiquitin-conjugating (E2) enzymes to support the ubiquitination of many cellular targets. As individual E2 enzymes have many different substrates and interactions between E2 enzymes and their substrates can be transient, it is challenging to define all in vivo substrates of an individual E2 and the cellular processes it affects. Particularly challenging in this respect is UBE2D3, an E2 enzyme with promiscuous activity in vitro but less defined roles in vivo. Here, we set out to identify in vivo targets of UBE2D3 by using stable isotope labeling by amino acids in cell culture-based and label-free quantitative ubiquitin diGly proteomics to study global proteome and ubiquitinome changes associated with UBE2D3 depletion. UBE2D3 depletion changed the global proteome, with the levels of proteins from metabolic pathways, in particular retinol metabolism, being the most affected. However, the impact of UBE2D3 depletion on the ubiquitinome was much more prominent. Interestingly, molecular pathways related to mRNA translation were the most affected. Indeed, we find that ubiquitination of the ribosomal proteins RPS10 and RPS20, critical for ribosome-associated protein quality control, is dependent on UBE2D3. We show by Targets of Ubiquitin Ligases Identified by Proteomics 2 methodology that RPS10 and RPS20 are direct targets of UBE2D3 and demonstrate that the catalytic activity of UBE2D3 is required to ubiquitinate RPS10 in vivo. In addition, our data suggest that UBE2D3 acts at multiple levels in autophagic protein quality control. Collectively, our findings show that depletion of an E2 enzyme in combination with quantitative diGly-based ubiquitinome profiling is a powerful tool to identify new in vivo E2 substrates, as we have done here for UBE2D3. Our work provides an important resource for further studies on the in vivo functions of UBE2D3.

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Ubiquitinome Profiling Reveals in Vivo UBE2D3 Targets and Implicates UBE2D3 in Protein Quality Control

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