A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome
Establishment and maintenance of the primary cilium as a signaling-competent organelle requires a high degree of fine tuning, which is at least in part achieved by a variety of post-translational modifications. One such modification is ubiquitination. The small and highly conserved ubiquitin protein...
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sg-ntu-dr.10356-1693712023-07-17T15:31:57Z A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome Aslanyan, Mariam G. Doornbos, Cenna Diwan, Gaurav D. Anvarian, Zeinab Beyer, Tina Junger, Katrin van Beersum, Sylvia E. C. Russell, Robert B. Ueffing, Marius Ludwig, Alexander Boldt, Karsten Pedersen, Lotte B. Roepman, Ronald School of Biological Sciences Science::Biological sciences Cilia Clathrin-Mediated Endocytosis Establishment and maintenance of the primary cilium as a signaling-competent organelle requires a high degree of fine tuning, which is at least in part achieved by a variety of post-translational modifications. One such modification is ubiquitination. The small and highly conserved ubiquitin protein possesses a unique versatility in regulating protein function via its ability to build mono and polyubiquitin chains onto target proteins. We aimed to take an unbiased approach to generate a comprehensive blueprint of the ciliary ubiquitinome by deploying a multi-proteomics approach using both ciliary-targeted ubiquitin affinity proteomics, as well as ubiquitin-binding domain-based proximity labelling in two different mammalian cell lines. This resulted in the identification of several key proteins involved in signaling, cytoskeletal remodeling and membrane and protein trafficking. Interestingly, using two different approaches in IMCD3 and RPE1 cells, respectively, we uncovered several novel mechanisms that regulate cilia function. In our IMCD3 proximity labeling cell line model, we found a highly enriched group of ESCRT-dependent clathrin-mediated endocytosis-related proteins, suggesting an important and novel role for this pathway in the regulation of ciliary homeostasis and function. In contrast, in RPE1 cells we found that several structural components of caveolae (CAV1, CAVIN1, and EHD2) were highly enriched in our cilia affinity proteomics screen. Consistently, the presence of caveolae at the ciliary pocket and ubiquitination of CAV1 specifically, were found likely to play a role in the regulation of ciliary length in these cells. Cilia length measurements demonstrated increased ciliary length in RPE1 cells stably expressing a ubiquitination impaired CAV1 mutant protein. Furthermore, live cell imaging in the same cells revealed decreased CAV1 protein turnover at the cilium as the possible cause for this phenotype. In conclusion, we have generated a comprehensive list of cilia-specific proteins that are subject to regulation via ubiquitination which can serve to further our understanding of cilia biology in health and disease. Ministry of Education (MOE) Published version This work was supported by the Dutch Research Council ( 2023-07-17T03:35:17Z 2023-07-17T03:35:17Z 2023 Journal Article Aslanyan, M. G., Doornbos, C., Diwan, G. D., Anvarian, Z., Beyer, T., Junger, K., van Beersum, S. E. C., Russell, R. B., Ueffing, M., Ludwig, A., Boldt, K., Pedersen, L. B. & Roepman, R. (2023). A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome. Frontiers in Cell and Developmental Biology, 11, 1113656-. https://dx.doi.org/10.3389/fcell.2023.1113656 2296-634X https://hdl.handle.net/10356/169371 10.3389/fcell.2023.1113656 36776558 2-s2.0-85147745208 11 1113656 en RG124/19(S) Frontiers in Cell and Developmental Biology © 2023 Aslanyan, Doornbos, Diwan, Anvarian, Beyer, Junger, van Beersum, Russell, Ueffing, Ludwig, Boldt, Pedersen and Roepman. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. application/pdf |
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Science::Biological sciences Cilia Clathrin-Mediated Endocytosis |
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Science::Biological sciences Cilia Clathrin-Mediated Endocytosis Aslanyan, Mariam G. Doornbos, Cenna Diwan, Gaurav D. Anvarian, Zeinab Beyer, Tina Junger, Katrin van Beersum, Sylvia E. C. Russell, Robert B. Ueffing, Marius Ludwig, Alexander Boldt, Karsten Pedersen, Lotte B. Roepman, Ronald A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome |
| description |
Establishment and maintenance of the primary cilium as a signaling-competent organelle requires a high degree of fine tuning, which is at least in part achieved by a variety of post-translational modifications. One such modification is ubiquitination. The small and highly conserved ubiquitin protein possesses a unique versatility in regulating protein function via its ability to build mono and polyubiquitin chains onto target proteins. We aimed to take an unbiased approach to generate a comprehensive blueprint of the ciliary ubiquitinome by deploying a multi-proteomics approach using both ciliary-targeted ubiquitin affinity proteomics, as well as ubiquitin-binding domain-based proximity labelling in two different mammalian cell lines. This resulted in the identification of several key proteins involved in signaling, cytoskeletal remodeling and membrane and protein trafficking. Interestingly, using two different approaches in IMCD3 and RPE1 cells, respectively, we uncovered several novel mechanisms that regulate cilia function. In our IMCD3 proximity labeling cell line model, we found a highly enriched group of ESCRT-dependent clathrin-mediated endocytosis-related proteins, suggesting an important and novel role for this pathway in the regulation of ciliary homeostasis and function. In contrast, in RPE1 cells we found that several structural components of caveolae (CAV1, CAVIN1, and EHD2) were highly enriched in our cilia affinity proteomics screen. Consistently, the presence of caveolae at the ciliary pocket and ubiquitination of CAV1 specifically, were found likely to play a role in the regulation of ciliary length in these cells. Cilia length measurements demonstrated increased ciliary length in RPE1 cells stably expressing a ubiquitination impaired CAV1 mutant protein. Furthermore, live cell imaging in the same cells revealed decreased CAV1 protein turnover at the cilium as the possible cause for this phenotype. In conclusion, we have generated a comprehensive list of cilia-specific proteins that are subject to regulation via ubiquitination which can serve to further our understanding of cilia biology in health and disease. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Aslanyan, Mariam G. Doornbos, Cenna Diwan, Gaurav D. Anvarian, Zeinab Beyer, Tina Junger, Katrin van Beersum, Sylvia E. C. Russell, Robert B. Ueffing, Marius Ludwig, Alexander Boldt, Karsten Pedersen, Lotte B. Roepman, Ronald |
| format |
Article |
| author |
Aslanyan, Mariam G. Doornbos, Cenna Diwan, Gaurav D. Anvarian, Zeinab Beyer, Tina Junger, Katrin van Beersum, Sylvia E. C. Russell, Robert B. Ueffing, Marius Ludwig, Alexander Boldt, Karsten Pedersen, Lotte B. Roepman, Ronald |
| author_sort |
Aslanyan, Mariam G. |
| title |
A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome |
| title_short |
A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome |
| title_full |
A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome |
| title_fullStr |
A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome |
| title_full_unstemmed |
A targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome |
| title_sort |
targeted multi-proteomics approach generates a blueprint of the ciliary ubiquitinome |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169371 |
| _version_ |
1773551224184897536 |