Ageing limits stemness and tumorigenesis by reprogramming iron homeostasis

Xueqian Zhuang¹, Qing Wang², Simon Joost¹, Alexander Ferrena³, David T Humphreys², Zhuxuan Li^{1

4}, Melissa Blum¹, Klavdija Krause¹, Selena Ding¹, Yuna Landais², Yingqian Zhan⁵, Yang Zhao⁶, Ronan Chaligne⁷, Joo-Hyeon Lee^{8

9}, Sebastian E Carrasco¹⁰, Umeshkumar K Bhanot¹¹, Richard P Koche⁵, Matthew J Bott¹, Pekka Katajisto^{12

13

14}, Yadira M Soto-Feliciano^{15

16}, Thomas Pisanic¹⁷, Tiffany Thomas¹⁸, Deyou Zheng^{3

19}, Emily S Wong^{2

20}, Tuomas Tammela²¹

Affiliations

¹ Cancer Biology and Genetics Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
² Victor Chang Cardiac Research Institute, Sydney, New South Wales, Australia.
³ Institute for Clinical and Translational Research, Albert Einstein College of Medicine, New York, NY, USA.
⁴ Weill Cornell Graduate School of Medical Science, Weill Cornell Medicine, New York, NY, USA.
⁵ Center for Epigenetics Research, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
⁶ Department of Biomedical Engineering, Johns Hopkins University, Baltimore, MD, USA.
⁷ Computational and Systems Biology Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
⁸ Wellcome-MRC Cambridge Stem Cell Institute, Jeffrey Cheah Biomedical Centre, University of Cambridge, Cambridge, UK.
⁹ Department of Physiology, Development and Neuroscience, University of Cambridge, Cambridge, UK.
¹⁰ Laboratory of Comparative Pathology, Weill Cornell Medicine, Memorial Sloan Kettering Cancer Center and Rockefeller University, New York, NY, USA.
¹¹ Pathology Core Facility, Department of Pathology, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
¹² Institute of Biotechnology, HiLIFE, University of Helsinki, Helsinki, Finland.
¹³ Department of Cell and Molecular Biology, Karolinska Institute, Stockholm, Sweden.
¹⁴ Faculty of Biological and Environmental Sciences, University of Helsinki, Helsinki, Finland.
¹⁵ David H. Koch Institute for Integrative Cancer Research, Massachusetts Institute of Technology, Cambridge, MA, USA.
¹⁶ Department of Biology, Massachusetts Institute of Technology, Cambridge, MA, USA.
¹⁷ Institute for NanoBioTechnology, Department of Oncology-Cancer Genetics and Epigenetics, Johns Hopkins University, Baltimore, MD, USA.
¹⁸ Department of Pathology and Cell Biology, Columbia University College of Physicians and Surgeons, New York, NY, USA.
¹⁹ Departments of Genetics, Neurology, and Neuroscience, Albert Einstein College of Medicine, New York, NY, USA.
²⁰ School of Biotechnology and Biomolecular Sciences, UNSW, Sydney, New South Wales, Australia.
²¹ Cancer Biology and Genetics Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, NY, USA. tammelat@mskcc.org.

PMID: 39633048
DOI: 10.1038/s41586-024-08285-0

Ageing limits stemness and tumorigenesis by reprogramming iron homeostasis

Xueqian Zhuang et al. Nature. 2025 Jan.

. 2025 Jan;637(8044):184-194.

doi: 10.1038/s41586-024-08285-0. Epub 2024 Dec 4.

Authors

Affiliations

¹ Cancer Biology and Genetics Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
² Victor Chang Cardiac Research Institute, Sydney, New South Wales, Australia.
³ Institute for Clinical and Translational Research, Albert Einstein College of Medicine, New York, NY, USA.
⁴ Weill Cornell Graduate School of Medical Science, Weill Cornell Medicine, New York, NY, USA.
⁵ Center for Epigenetics Research, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
⁶ Department of Biomedical Engineering, Johns Hopkins University, Baltimore, MD, USA.
⁷ Computational and Systems Biology Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
⁸ Wellcome-MRC Cambridge Stem Cell Institute, Jeffrey Cheah Biomedical Centre, University of Cambridge, Cambridge, UK.
⁹ Department of Physiology, Development and Neuroscience, University of Cambridge, Cambridge, UK.
¹⁰ Laboratory of Comparative Pathology, Weill Cornell Medicine, Memorial Sloan Kettering Cancer Center and Rockefeller University, New York, NY, USA.
¹¹ Pathology Core Facility, Department of Pathology, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
¹² Institute of Biotechnology, HiLIFE, University of Helsinki, Helsinki, Finland.
¹³ Department of Cell and Molecular Biology, Karolinska Institute, Stockholm, Sweden.
¹⁴ Faculty of Biological and Environmental Sciences, University of Helsinki, Helsinki, Finland.
¹⁵ David H. Koch Institute for Integrative Cancer Research, Massachusetts Institute of Technology, Cambridge, MA, USA.
¹⁶ Department of Biology, Massachusetts Institute of Technology, Cambridge, MA, USA.
¹⁷ Institute for NanoBioTechnology, Department of Oncology-Cancer Genetics and Epigenetics, Johns Hopkins University, Baltimore, MD, USA.
¹⁸ Department of Pathology and Cell Biology, Columbia University College of Physicians and Surgeons, New York, NY, USA.
¹⁹ Departments of Genetics, Neurology, and Neuroscience, Albert Einstein College of Medicine, New York, NY, USA.
²⁰ School of Biotechnology and Biomolecular Sciences, UNSW, Sydney, New South Wales, Australia.
²¹ Cancer Biology and Genetics Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, NY, USA. tammelat@mskcc.org.

PMID: 39633048
DOI: 10.1038/s41586-024-08285-0

Erratum in

Publisher Correction: Ageing limits stemness and tumorigenesis by reprogramming iron homeostasis.
Zhuang X, Wang Q, Joost S, Ferrena A, Humphreys DT, Li Z, Blum M, Krause K, Ding S, Landais Y, Zhan Y, Zhao Y, Chaligne R, Lee JH, Carrasco SE, Bhanot UK, Koche RP, Bott MJ, Katajisto P, Soto-Feliciano YM, Pisanic T, Thomas T, Zheng D, Wong ES, Tammela T. Zhuang X, et al. Nature. 2025 Jun;642(8067):E17. doi: 10.1038/s41586-025-09124-6. Nature. 2025. PMID: 40404940 No abstract available.

Abstract

Ageing is associated with a decline in the number and fitness of adult stem cells^1,2. Ageing-associated loss of stemness is posited to suppress tumorigenesis^3,4, but this hypothesis has not been tested in vivo. Here we use physiologically aged autochthonous genetically engineered^5,6 mouse models and primary cells^5,6 to demonstrate that ageing suppresses lung cancer initiation and progression by degrading the stemness of the alveolar cell of origin. This phenotype is underpinned by the ageing-associated induction of the transcription factor NUPR1 and its downstream target lipocalin-2 in the cell of origin in mice and humans, which leads to functional iron insufficiency in the aged cells. Genetic inactivation of the NUPR1-lipocalin-2 axis or iron supplementation rescues stemness and promotes the tumorigenic potential of aged alveolar cells. Conversely, targeting the NUPR1-lipocalin-2 axis is detrimental to young alveolar cells through ferroptosis induction. Ageing-associated DNA hypomethylation at specific enhancer sites is associated with increased NUPR1 expression, which is recapitulated in young alveolar cells through DNA methylation inhibition. We uncover that ageing drives functional iron insufficiency that leads to loss of stemness and tumorigenesis but promotes resistance to ferroptosis. These findings have implications for the therapeutic modulation of cellular iron homeostasis in regenerative medicine and in cancer prevention. Furthermore, our findings are consistent with a model whereby most human cancers initiate at a young age, thereby highlighting the importance of directing cancer prevention efforts towards young individuals.

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Conflict of interest statement

Competing interests: T. Tammela is a scientific advisor with equity interests in Lime Therapeutics. His spouse is an employee of and has equity in Recursion Pharmaceuticals. The Tammela Laboratory receives funding from Ono Pharma unrelated to this work. E.S.W. has equity in and her spouse is a co-founder of and equity holder in Gertrude Biomedical Pty. The other authors declare no competing interests.

Update of

Aging limits stemness and tumorigenesis in the lung by reprogramming iron homeostasis.
Zhuang X, Wang Q, Joost S, Ferrena A, Humphreys DT, Li Z, Blum M, Bastl K, Ding S, Landais Y, Zhan Y, Zhao Y, Chaligne R, Lee JH, Carrasco SE, Bhanot UK, Koche RP, Bott MJ, Katajisto P, Soto-Feliciano YM, Pisanic T, Thomas T, Zheng D, Wong ES, Tammela T. Zhuang X, et al. bioRxiv [Preprint]. 2024 Jun 28:2024.06.23.600305. doi: 10.1101/2024.06.23.600305. bioRxiv. 2024. Update in: Nature. 2025 Jan;637(8044):184-194. doi: 10.1038/s41586-024-08285-0. PMID: 38979280 Free PMC article. Updated. Preprint.

References

1. Oh, J., Lee, Y. D. & Wagers, A. J. Stem cell aging: mechanisms, regulators and therapeutic opportunities. Nat. Med. 20, 870–880 (2014). - PubMed - PMC - DOI
1. Schultz, M. B. & Sinclair, D. A. When stem cells grow old: phenotypes and mechanisms of stem cell aging. Development 143, 3–14 (2016). - PubMed - PMC - DOI
1. Rozhok, A. I. & DeGregori, J. The evolution of lifespan and age-dependent cancer risk. Trends Cancer 2, 552–560 (2016). - PubMed - PMC - DOI
1. Rozhok, A. & DeGregori, J. A generalized theory of age-dependent carcinogenesis. eLife 8, e39950 (2019). - PubMed - PMC - DOI
1. Jackson, E. L. et al. The differential effects of mutant p53 alleles on advanced murine lung cancer. Cancer Res. 65, 10280–10288 (2005). - PubMed - DOI

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Ageing limits stemness and tumorigenesis by reprogramming iron homeostasis

Affiliations

Ageing limits stemness and tumorigenesis by reprogramming iron homeostasis

Authors

Affiliations

Erratum in

Abstract

Conflict of interest statement

Update of

References

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Full Text Sources

Medical

Molecular Biology Databases