CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma
MAD2 is a spindle assembly checkpoint protein that participates in the formation of mitotic checkpoint complex, which blocks mitotic progression. RNF8, an established DNA damage response protein, has been implicated in mitotic checkpoint regulation but its exact role remains poorly understood. Here,...
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sg-ntu-dr.10356-1742622024-03-25T15:32:35Z CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma Chuah, You Heng Tay, Emmy Xue Yun Grinchuk, Oleg V. Yoon, Jeehyun Feng, Jia Kannan, Srinivasaraghavan Robert, Matius Jakhar, Rekha Liang, Yajing Lee, Bernice Woon Li Wang, Loo Chien Lim, Yan Ting Zhao, Tianyun Sobota, Radoslaw M. Lu, Guang Low, Boon Chuan Crasta, Karen Carmelina Verma, Chandra Shekhar Lin, Zhewang Ong, Derrick Sek Tong School of Biological Sciences Bioinformatics Institute, A*STAR Department of Biological Sciences, NUS Medicine, Health and Life Sciences CAMK2D protein Glioma MAD2 is a spindle assembly checkpoint protein that participates in the formation of mitotic checkpoint complex, which blocks mitotic progression. RNF8, an established DNA damage response protein, has been implicated in mitotic checkpoint regulation but its exact role remains poorly understood. Here, RNF8 proximity proteomics uncovered a role of RNF8-MAD2 in generating the mitotic checkpoint signal. Specifically, RNF8 competes with a small pool of p31comet for binding to the closed conformer of MAD2 via its RING domain, while CAMK2D serves as a molecular scaffold to concentrate the RNF8-MAD2 complex via transient/weak interactions between its p-Thr287 and RNF8's FHA domain. Accordingly, RNF8 overexpression impairs glioma stem cell (GSC) mitotic progression in a FHA- and RING-dependent manner. Importantly, low RNF8 expression correlates with inferior glioma outcome and RNF8 overexpression impedes GSC tumorigenicity. Last, we identify PLK1 inhibitor that mimics RNF8 overexpression using a chemical biology approach, and demonstrate a PLK1/HSP90 inhibitor combination that synergistically reduces GSC proliferation and stemness. Thus, our study has unveiled a previously unrecognized CAMK2D-RNF8-MAD2 complex in regulating mitotic checkpoint with relevance to gliomas, which is therapeutically targetable. Agency for Science, Technology and Research (A*STAR) National Supercomputing Centre (NSCC) Singapore Published version This work was supported by the National Research Foundation Fellowship (NRF-NRFF2017-01 to DSTO); National University of Singapore (NUS) Startup grant (DSTO); NUS President’s Assistant Professorship (DSTO); and NUS Research Scholarships (YHC, YL, and BWLL). SK and CSV thank A*STAR and NSCC for support. 2024-03-25T02:10:06Z 2024-03-25T02:10:06Z 2023 Journal Article Chuah, Y. H., Tay, E. X. Y., Grinchuk, O. V., Yoon, J., Feng, J., Kannan, S., Robert, M., Jakhar, R., Liang, Y., Lee, B. W. L., Wang, L. C., Lim, Y. T., Zhao, T., Sobota, R. M., Lu, G., Low, B. C., Crasta, K. C., Verma, C. S., Lin, Z. & Ong, D. S. T. (2023). CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma. Cell Death and Differentiation, 30(8), 1973-1987. https://dx.doi.org/10.1038/s41418-023-01192-3 1350-9047 https://hdl.handle.net/10356/174262 10.1038/s41418-023-01192-3 37468549 2-s2.0-85165165903 8 30 1973 1987 en Cell Death and Differentiation © The Author(s) 2023. Open Access. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http:// creativecommons.org/licenses/by/4.0/. application/pdf |
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Medicine, Health and Life Sciences CAMK2D protein Glioma |
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Medicine, Health and Life Sciences CAMK2D protein Glioma Chuah, You Heng Tay, Emmy Xue Yun Grinchuk, Oleg V. Yoon, Jeehyun Feng, Jia Kannan, Srinivasaraghavan Robert, Matius Jakhar, Rekha Liang, Yajing Lee, Bernice Woon Li Wang, Loo Chien Lim, Yan Ting Zhao, Tianyun Sobota, Radoslaw M. Lu, Guang Low, Boon Chuan Crasta, Karen Carmelina Verma, Chandra Shekhar Lin, Zhewang Ong, Derrick Sek Tong CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma |
| description |
MAD2 is a spindle assembly checkpoint protein that participates in the formation of mitotic checkpoint complex, which blocks mitotic progression. RNF8, an established DNA damage response protein, has been implicated in mitotic checkpoint regulation but its exact role remains poorly understood. Here, RNF8 proximity proteomics uncovered a role of RNF8-MAD2 in generating the mitotic checkpoint signal. Specifically, RNF8 competes with a small pool of p31comet for binding to the closed conformer of MAD2 via its RING domain, while CAMK2D serves as a molecular scaffold to concentrate the RNF8-MAD2 complex via transient/weak interactions between its p-Thr287 and RNF8's FHA domain. Accordingly, RNF8 overexpression impairs glioma stem cell (GSC) mitotic progression in a FHA- and RING-dependent manner. Importantly, low RNF8 expression correlates with inferior glioma outcome and RNF8 overexpression impedes GSC tumorigenicity. Last, we identify PLK1 inhibitor that mimics RNF8 overexpression using a chemical biology approach, and demonstrate a PLK1/HSP90 inhibitor combination that synergistically reduces GSC proliferation and stemness. Thus, our study has unveiled a previously unrecognized CAMK2D-RNF8-MAD2 complex in regulating mitotic checkpoint with relevance to gliomas, which is therapeutically targetable. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Chuah, You Heng Tay, Emmy Xue Yun Grinchuk, Oleg V. Yoon, Jeehyun Feng, Jia Kannan, Srinivasaraghavan Robert, Matius Jakhar, Rekha Liang, Yajing Lee, Bernice Woon Li Wang, Loo Chien Lim, Yan Ting Zhao, Tianyun Sobota, Radoslaw M. Lu, Guang Low, Boon Chuan Crasta, Karen Carmelina Verma, Chandra Shekhar Lin, Zhewang Ong, Derrick Sek Tong |
| format |
Article |
| author |
Chuah, You Heng Tay, Emmy Xue Yun Grinchuk, Oleg V. Yoon, Jeehyun Feng, Jia Kannan, Srinivasaraghavan Robert, Matius Jakhar, Rekha Liang, Yajing Lee, Bernice Woon Li Wang, Loo Chien Lim, Yan Ting Zhao, Tianyun Sobota, Radoslaw M. Lu, Guang Low, Boon Chuan Crasta, Karen Carmelina Verma, Chandra Shekhar Lin, Zhewang Ong, Derrick Sek Tong |
| author_sort |
Chuah, You Heng |
| title |
CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma |
| title_short |
CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma |
| title_full |
CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma |
| title_fullStr |
CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma |
| title_full_unstemmed |
CAMK2D serves as a molecular scaffold for RNF8-MAD2 complex to induce mitotic checkpoint in glioma |
| title_sort |
camk2d serves as a molecular scaffold for rnf8-mad2 complex to induce mitotic checkpoint in glioma |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174262 |
| _version_ |
1795302118879395840 |