Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer

Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer

Cell state transitions control the functional behavior of cancer cells. Epithelial-to-mesenchymal transition (EMT) confers cancer stem cell-like properties, enhanced tumorigenicity and drug resistance to tumor cells, while mesenchymal-epithelial transition (MET) reverses these phenotypes. Using high...

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Main Authors: Loo, Ser Yue, Toh, Li Ping, Xie, William Haowei, Pathak, Elina, Tan, Wilson, Ma, Siming, Lee, May Yin, Shatishwaran, S., Yeo, Joanna Zhen Zhen, Yuan, Ju, Ho, Yin Ying, Peh, Esther Kai Lay, Muniandy, Magendran, Torta, Federico, Chan, Jack, Tan, Tira J., Sim, Yirong, Tan, Veronique, Tan, Benita, Madhukumar, Preetha, Yong, Wei Sean, Ong, Kong Wee, Wong, Chow Yin, Tan, Puay Hoon, Yap, Yoon Sim, Deng, Lih-Wen, Dent, Rebecca, Foo, Roger, Wenk, Markus R., Lee, Soo Chin, Ho, Ying Swan, Lim, Elaine Hsuen, Tam, Wai Leong
Other Authors: School of Biological Sciences
Format: Article
Language:English
Published: 2022
Subjects:
Science::Biological sciences
Epithelial-Mesenchymal Transition
Retinoic Acid
Online Access:https://hdl.handle.net/10356/154360
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1543602023-02-28T17:11:30Z Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer Loo, Ser Yue Toh, Li Ping Xie, William Haowei Pathak, Elina Tan, Wilson Ma, Siming Lee, May Yin Shatishwaran, S. Yeo, Joanna Zhen Zhen Yuan, Ju Ho, Yin Ying Peh, Esther Kai Lay Muniandy, Magendran Torta, Federico Chan, Jack Tan, Tira J. Sim, Yirong Tan, Veronique Tan, Benita Madhukumar, Preetha Yong, Wei Sean Ong, Kong Wee Wong, Chow Yin Tan, Puay Hoon Yap, Yoon Sim Deng, Lih-Wen Dent, Rebecca Foo, Roger Wenk, Markus R. Lee, Soo Chin Ho, Ying Swan Lim, Elaine Hsuen Tam, Wai Leong School of Biological Sciences Genome Institute of Singapore, A*STAR National University of Singapore Science::Biological sciences Epithelial-Mesenchymal Transition Retinoic Acid Cell state transitions control the functional behavior of cancer cells. Epithelial-to-mesenchymal transition (EMT) confers cancer stem cell-like properties, enhanced tumorigenicity and drug resistance to tumor cells, while mesenchymal-epithelial transition (MET) reverses these phenotypes. Using high-throughput chemical library screens, retinoids are found to be potent promoters of MET that inhibit tumorigenicity in basal-like breast cancer. Cell state transitions are defined by reprogramming of lipid metabolism. Retinoids bind cognate nuclear receptors, which target lipid metabolism genes, thereby redirecting fatty acids for β-oxidation in the mesenchymal cell state towards lipid storage in the epithelial cell state. Disruptions of key metabolic enzymes mediating this flux inhibit MET. Conversely, perturbations to fatty acid oxidation (FAO) rechannel fatty acid flux and promote a more epithelial cell phenotype, blocking EMT-driven breast cancer metastasis in animal models. FAO impinges on the epigenetic control of EMT through acetyl-CoA-dependent regulation of histone acetylation on EMT genes, thus determining cell states. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) National Medical Research Council (NMRC) National Research Foundation (NRF) National University of Singapore (NUS), Temasek Laboratories Published version This research is supported by the National Medical Research Council, Singapore (OFIRG17may061, OFIRG19nov-0106, OFYIRG18May-0025, and CTGIIT18may0012); National Research Foundation Singapore (NRF-NRFF2015-04, NRFCRP22-2019-0003, NRF-CRP23-2019-0004, and NRFSBP-P4); National Cancer Institute Singapore Yong Siew Yoon Research Grant; Agency for Science, Technology and Research, Singapore (IAF-ICP I1901E0040); National University of Singapore via the Life Sciences Institute (LSI); and the Singapore Ministry of Education under its Research Centers of Excellence initiative. 2022-05-25T01:55:10Z 2022-05-25T01:55:10Z 2021 Journal Article Loo, S. Y., Toh, L. P., Xie, W. H., Pathak, E., Tan, W., Ma, S., Lee, M. Y., Shatishwaran, S., Yeo, J. Z. Z., Yuan, J., Ho, Y. Y., Peh, E. K. L., Muniandy, M., Torta, F., Chan, J., Tan, T. J., Sim, Y., Tan, V., Tan, B., ...Tam, W. L. (2021). Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer. Science Advances, 7(41), eabh2443-. https://dx.doi.org/10.1126/sciadv.abh2443 2375-2548 https://hdl.handle.net/10356/154360 10.1126/sciadv.abh2443 34613780 2-s2.0-85116908394 41 7 eabh2443 en OFIRG17may061 OFIRG19nov-0106 OFYIRG18May-0025 CTGIIT18may0012 NRF-NRFF2015-04 NRFCRP22-2019-0003 NRF-CRP23-2019-0004 NRFSBP-P4 IAF-ICP I1901E0040 Science Advances © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S.Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Science::Biological sciences
Epithelial-Mesenchymal Transition
Retinoic Acid
spellingShingle Science::Biological sciences
Epithelial-Mesenchymal Transition
Retinoic Acid
Loo, Ser Yue
Toh, Li Ping
Xie, William Haowei
Pathak, Elina
Tan, Wilson
Ma, Siming
Lee, May Yin
Shatishwaran, S.
Yeo, Joanna Zhen Zhen
Yuan, Ju
Ho, Yin Ying
Peh, Esther Kai Lay
Muniandy, Magendran
Torta, Federico
Chan, Jack
Tan, Tira J.
Sim, Yirong
Tan, Veronique
Tan, Benita
Madhukumar, Preetha
Yong, Wei Sean
Ong, Kong Wee
Wong, Chow Yin
Tan, Puay Hoon
Yap, Yoon Sim
Deng, Lih-Wen
Dent, Rebecca
Foo, Roger
Wenk, Markus R.
Lee, Soo Chin
Ho, Ying Swan
Lim, Elaine Hsuen
Tam, Wai Leong
Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer
description Cell state transitions control the functional behavior of cancer cells. Epithelial-to-mesenchymal transition (EMT) confers cancer stem cell-like properties, enhanced tumorigenicity and drug resistance to tumor cells, while mesenchymal-epithelial transition (MET) reverses these phenotypes. Using high-throughput chemical library screens, retinoids are found to be potent promoters of MET that inhibit tumorigenicity in basal-like breast cancer. Cell state transitions are defined by reprogramming of lipid metabolism. Retinoids bind cognate nuclear receptors, which target lipid metabolism genes, thereby redirecting fatty acids for β-oxidation in the mesenchymal cell state towards lipid storage in the epithelial cell state. Disruptions of key metabolic enzymes mediating this flux inhibit MET. Conversely, perturbations to fatty acid oxidation (FAO) rechannel fatty acid flux and promote a more epithelial cell phenotype, blocking EMT-driven breast cancer metastasis in animal models. FAO impinges on the epigenetic control of EMT through acetyl-CoA-dependent regulation of histone acetylation on EMT genes, thus determining cell states.
author2 School of Biological Sciences
author_facet School of Biological Sciences
Loo, Ser Yue
Toh, Li Ping
Xie, William Haowei
Pathak, Elina
Tan, Wilson
Ma, Siming
Lee, May Yin
Shatishwaran, S.
Yeo, Joanna Zhen Zhen
Yuan, Ju
Ho, Yin Ying
Peh, Esther Kai Lay
Muniandy, Magendran
Torta, Federico
Chan, Jack
Tan, Tira J.
Sim, Yirong
Tan, Veronique
Tan, Benita
Madhukumar, Preetha
Yong, Wei Sean
Ong, Kong Wee
Wong, Chow Yin
Tan, Puay Hoon
Yap, Yoon Sim
Deng, Lih-Wen
Dent, Rebecca
Foo, Roger
Wenk, Markus R.
Lee, Soo Chin
Ho, Ying Swan
Lim, Elaine Hsuen
Tam, Wai Leong
format Article
author Loo, Ser Yue
Toh, Li Ping
Xie, William Haowei
Pathak, Elina
Tan, Wilson
Ma, Siming
Lee, May Yin
Shatishwaran, S.
Yeo, Joanna Zhen Zhen
Yuan, Ju
Ho, Yin Ying
Peh, Esther Kai Lay
Muniandy, Magendran
Torta, Federico
Chan, Jack
Tan, Tira J.
Sim, Yirong
Tan, Veronique
Tan, Benita
Madhukumar, Preetha
Yong, Wei Sean
Ong, Kong Wee
Wong, Chow Yin
Tan, Puay Hoon
Yap, Yoon Sim
Deng, Lih-Wen
Dent, Rebecca
Foo, Roger
Wenk, Markus R.
Lee, Soo Chin
Ho, Ying Swan
Lim, Elaine Hsuen
Tam, Wai Leong
author_sort Loo, Ser Yue
title Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer
title_short Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer
title_full Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer
title_fullStr Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer
title_full_unstemmed Fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer
title_sort fatty acid oxidation is a druggable gateway regulating cellular plasticity for driving metastasis in breast cancer
publishDate 2022
url https://hdl.handle.net/10356/154360
_version_ 1759855715002875904

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