TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival

TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival

DNA repair and autophagy are distinct biological processes vital for cell survival. Although autophagy helps maintain genome stability, there is no evidence of its direct role in the repair of DNA lesions. We discovered that lysosomes process topoisomerase 1 cleavage complexes (TOP1cc) DNA lesions i...

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Main Authors: Lascaux, Pauline, Hoslett, Gwendoline, Tribble, Sara, Trugenberger, Camilla, Antičević, Ivan, Otten, Cecile, Torrecilla, Ignacio, Koukouravas, Stelios, Zhao, Yichen, Yang, Hongbin, Aljarbou, Ftoon, Ruggiano, Annamaria, Song, Wei, Peron, Cristiano, Deangeli, Giulio, Domingo, Enric, Bancroft, James, Carrique, Loïc, Johnson, Errin, Vendrell, Iolanda, Fischer, Roman, Ng, Alvin Wei Tian, Ngeow, Joanne, D'Angiolella, Vincenzo, Raimundo, Nuno, Maughan, Tim, Popović, Marta, Milošević, Ira, Ramadan, Kristijan
Other Authors: Lee Kong Chian School of Medicine (LKCMedicine)
Format: Article
Language:English
Published: 2025
Subjects:
Medicine, Health and Life Sciences
Colorectal cancer
DNA repair
Online Access:https://hdl.handle.net/10356/182452
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Institution: Nanyang Technological University
Language: English
id sg-ntu-dr.10356-182452
record_format dspace
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Medicine, Health and Life Sciences
Colorectal cancer
DNA repair
spellingShingle Medicine, Health and Life Sciences
Colorectal cancer
DNA repair
Lascaux, Pauline
Hoslett, Gwendoline
Tribble, Sara
Trugenberger, Camilla
Antičević, Ivan
Otten, Cecile
Torrecilla, Ignacio
Koukouravas, Stelios
Zhao, Yichen
Yang, Hongbin
Aljarbou, Ftoon
Ruggiano, Annamaria
Song, Wei
Peron, Cristiano
Deangeli, Giulio
Domingo, Enric
Bancroft, James
Carrique, Loïc
Johnson, Errin
Vendrell, Iolanda
Fischer, Roman
Ng, Alvin Wei Tian
Ngeow, Joanne
D'Angiolella, Vincenzo
Raimundo, Nuno
Maughan, Tim
Popović, Marta
Milošević, Ira
Ramadan, Kristijan
TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival
description DNA repair and autophagy are distinct biological processes vital for cell survival. Although autophagy helps maintain genome stability, there is no evidence of its direct role in the repair of DNA lesions. We discovered that lysosomes process topoisomerase 1 cleavage complexes (TOP1cc) DNA lesions in vertebrates. Selective degradation of TOP1cc by autophagy directs DNA damage repair and cell survival at clinically relevant doses of topoisomerase 1 inhibitors. TOP1cc are exported from the nucleus to lysosomes through a transient alteration of the nuclear envelope and independent of the proteasome. Mechanistically, the autophagy receptor TEX264 acts as a TOP1cc sensor at DNA replication forks, triggering TOP1cc processing by the p97 ATPase and mediating the delivery of TOP1cc to lysosomes in an MRE11-nuclease- and ATR-kinase-dependent manner. We found an evolutionarily conserved role for selective autophagy in DNA repair that enables cell survival, protects genome stability, and is clinically relevant for colorectal cancer patients.
author2 Lee Kong Chian School of Medicine (LKCMedicine)
author_facet Lee Kong Chian School of Medicine (LKCMedicine)
Lascaux, Pauline
Hoslett, Gwendoline
Tribble, Sara
Trugenberger, Camilla
Antičević, Ivan
Otten, Cecile
Torrecilla, Ignacio
Koukouravas, Stelios
Zhao, Yichen
Yang, Hongbin
Aljarbou, Ftoon
Ruggiano, Annamaria
Song, Wei
Peron, Cristiano
Deangeli, Giulio
Domingo, Enric
Bancroft, James
Carrique, Loïc
Johnson, Errin
Vendrell, Iolanda
Fischer, Roman
Ng, Alvin Wei Tian
Ngeow, Joanne
D'Angiolella, Vincenzo
Raimundo, Nuno
Maughan, Tim
Popović, Marta
Milošević, Ira
Ramadan, Kristijan
format Article
author Lascaux, Pauline
Hoslett, Gwendoline
Tribble, Sara
Trugenberger, Camilla
Antičević, Ivan
Otten, Cecile
Torrecilla, Ignacio
Koukouravas, Stelios
Zhao, Yichen
Yang, Hongbin
Aljarbou, Ftoon
Ruggiano, Annamaria
Song, Wei
Peron, Cristiano
Deangeli, Giulio
Domingo, Enric
Bancroft, James
Carrique, Loïc
Johnson, Errin
Vendrell, Iolanda
Fischer, Roman
Ng, Alvin Wei Tian
Ngeow, Joanne
D'Angiolella, Vincenzo
Raimundo, Nuno
Maughan, Tim
Popović, Marta
Milošević, Ira
Ramadan, Kristijan
author_sort Lascaux, Pauline
title TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival
title_short TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival
title_full TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival
title_fullStr TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival
title_full_unstemmed TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival
title_sort tex264 drives selective autophagy of dna lesions to promote dna repair and cell survival
publishDate 2025
url https://hdl.handle.net/10356/182452
_version_ 1823807393263255552
spelling sg-ntu-dr.10356-1824522025-02-09T15:40:22Z TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival Lascaux, Pauline Hoslett, Gwendoline Tribble, Sara Trugenberger, Camilla Antičević, Ivan Otten, Cecile Torrecilla, Ignacio Koukouravas, Stelios Zhao, Yichen Yang, Hongbin Aljarbou, Ftoon Ruggiano, Annamaria Song, Wei Peron, Cristiano Deangeli, Giulio Domingo, Enric Bancroft, James Carrique, Loïc Johnson, Errin Vendrell, Iolanda Fischer, Roman Ng, Alvin Wei Tian Ngeow, Joanne D'Angiolella, Vincenzo Raimundo, Nuno Maughan, Tim Popović, Marta Milošević, Ira Ramadan, Kristijan Lee Kong Chian School of Medicine (LKCMedicine) National Cancer Centre, Singapore Medicine, Health and Life Sciences Colorectal cancer DNA repair DNA repair and autophagy are distinct biological processes vital for cell survival. Although autophagy helps maintain genome stability, there is no evidence of its direct role in the repair of DNA lesions. We discovered that lysosomes process topoisomerase 1 cleavage complexes (TOP1cc) DNA lesions in vertebrates. Selective degradation of TOP1cc by autophagy directs DNA damage repair and cell survival at clinically relevant doses of topoisomerase 1 inhibitors. TOP1cc are exported from the nucleus to lysosomes through a transient alteration of the nuclear envelope and independent of the proteasome. Mechanistically, the autophagy receptor TEX264 acts as a TOP1cc sensor at DNA replication forks, triggering TOP1cc processing by the p97 ATPase and mediating the delivery of TOP1cc to lysosomes in an MRE11-nuclease- and ATR-kinase-dependent manner. We found an evolutionarily conserved role for selective autophagy in DNA repair that enables cell survival, protects genome stability, and is clinically relevant for colorectal cancer patients. Ministry of Education (MOE) Nanyang Technological University Published version The Wellcome Trust Core award (203141/Z/16/Z) and the NIHR Oxford BRC supported access to computational resources. Clinical trial samples were obtained from the Medical Research Council (MRC) FOCUS trial and analyzed by the S:CORT consortium, which was funded by MRC and Cancer Research UK (MR/M016587/1). MRC programme (MR/X006409/1), Breast Cancer Now (2022.11PR1570), Ministry of Education-Start-Up Grant, Singapore and Toh Kian Chui Distinguished Professorship Award supported K.R.; the Luxembourg National Fund (14548187) was awarded to P.L.; two MRC studentships were awarded to G.H. and C.P.; the Nuovo-Soldati Foundation Research Fellowship was awarded to C.P.; the MRC DTP from the University of Cambridge and the Cambridge Trust supported G.D.; the Saudi Arabian Cultural Bureau (1067945301) was awarded to F.A.; the Presidential Postdoctoral Fellowship (022543-00001) from Nanyang Technological University (NTU) Singapore was awarded to A.W.T.N.; the NIA-NIH (R56AG082790-01) was awarded to N.R.; the Croatian Science Foundation Installation Grant (UIP-2017-05-5258), Slovenian-Croatian Bilateral Research Project grant (IPS-2020-01-4225), and European Structural and Investment Funds STIM-REI project (KK.01.1.1.01.0003) was awarded to M.P.; the Wellcome Trust Investigator Award in Science (224361/Z/21/Z) and John Black Foundation was awarded to I.M.; and the Wellcome Trust Core Award (203141/Z/16/Z), with additional support from the NIHR Oxford BRC, was awarded to L.C. 2025-02-03T06:18:12Z 2025-02-03T06:18:12Z 2024 Journal Article Lascaux, P., Hoslett, G., Tribble, S., Trugenberger, C., Antičević, I., Otten, C., Torrecilla, I., Koukouravas, S., Zhao, Y., Yang, H., Aljarbou, F., Ruggiano, A., Song, W., Peron, C., Deangeli, G., Domingo, E., Bancroft, J., Carrique, L., Johnson, E., ...Ramadan, K. (2024). TEX264 drives selective autophagy of DNA lesions to promote DNA repair and cell survival. Cell, 187(20), 5698-5718.e26. https://dx.doi.org/10.1016/j.cell.2024.08.020 0092-8674 https://hdl.handle.net/10356/182452 10.1016/j.cell.2024.08.020 39265577 2-s2.0-85206018267 20 187 5698 5718.e26 en 022543-00001 MOE SUG Cell © 2024 The Author(s). Published by Elsevier Inc. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). application/pdf

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