Reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation

Basal-like breast cancer (BLBC) is the most aggressive subtype of breast tumors with poor prognosis and limited molecular-targeted therapy options. We show that BLBC cells have a high Cys demand and reprogrammed Cys metabolism. Patient-derived BLBC tumors from four different cohorts exhibited elevat...

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Autores principales: Erdélyi, Katalin, Ditrói, Tamás, Johansson, Henrik J., Czikora, Ágnes, Balog, Noémi, Silwal-Pandit, Laxmi, Ida, Tomoaki, Olasz, Judit, Hajdú, Dorottya, Mátrai, Zoltán, Csuka, Orsolya, Uchida, Koji, Tóvári, József, Engebraten, Olav, Akaike, Takaaki, Børresen Dale, Anne-Lise, Kásler, Miklós, Lehtiö, Janne, Nagy, Péter
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2021
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8609449/
https://www.ncbi.nlm.nih.gov/pubmed/34737229
http://dx.doi.org/10.1073/pnas.2100050118
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author Erdélyi, Katalin
Ditrói, Tamás
Johansson, Henrik J.
Czikora, Ágnes
Balog, Noémi
Silwal-Pandit, Laxmi
Ida, Tomoaki
Olasz, Judit
Hajdú, Dorottya
Mátrai, Zoltán
Csuka, Orsolya
Uchida, Koji
Tóvári, József
Engebraten, Olav
Akaike, Takaaki
Børresen Dale, Anne-Lise
Kásler, Miklós
Lehtiö, Janne
Nagy, Péter
author_facet Erdélyi, Katalin
Ditrói, Tamás
Johansson, Henrik J.
Czikora, Ágnes
Balog, Noémi
Silwal-Pandit, Laxmi
Ida, Tomoaki
Olasz, Judit
Hajdú, Dorottya
Mátrai, Zoltán
Csuka, Orsolya
Uchida, Koji
Tóvári, József
Engebraten, Olav
Akaike, Takaaki
Børresen Dale, Anne-Lise
Kásler, Miklós
Lehtiö, Janne
Nagy, Péter
author_sort Erdélyi, Katalin
collection PubMed
description Basal-like breast cancer (BLBC) is the most aggressive subtype of breast tumors with poor prognosis and limited molecular-targeted therapy options. We show that BLBC cells have a high Cys demand and reprogrammed Cys metabolism. Patient-derived BLBC tumors from four different cohorts exhibited elevated expression of the transsulfuration enzyme cystathione β-synthetase (CBS). CBS silencing (shCBS) made BLBC cells less invasive, proliferate slower, more vulnerable to oxidative stress and cystine (CySSCy) deprivation, prone to ferroptosis, and less responsive to HIF1-α activation under hypoxia. shCBS xenograft tumors grew slower than controls and exhibited impaired angiogenesis and larger necrotic areas. Sulfur metabolite profiling suggested that realigned sulfide/persulfide-inducing functions of CBS are important in BLBC tumor progression. Supporting this, the exclusion of serine, a substrate of CBS for producing Cys but not for producing sulfide/persulfide, did not exacerbate CySSCy deprivation–induced ferroptosis in shCBS BLBC cells. Impaired Tyr phosphorylation was detected in shCBS cells and xenografts, likely due to persulfidation-inhibited phosphatase functions. Overexpression of cystathione γ-lyase (CSE), which can also contribute to cellular sulfide/persulfide production, compensated for the loss of CBS activities, and treatment of shCBS xenografts with a CSE inhibitor further blocked tumor growth. Glutathione and protein-Cys levels were not diminished in shCBS cells or xenografts, but levels of Cys persulfidation and the persulfide-catabolizing enzyme ETHE1 were suppressed. Finally, expression of enzymes of the oxidizing Cys catabolism pathway was diminished, but expression of the persulfide-producing CARS2 was elevated in human BLBC tumors. Hence, the persulfide-producing pathways are major targetable determinants of BLBC pathology that could be therapeutically exploited.
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spelling pubmed-86094492021-12-02 Reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation Erdélyi, Katalin Ditrói, Tamás Johansson, Henrik J. Czikora, Ágnes Balog, Noémi Silwal-Pandit, Laxmi Ida, Tomoaki Olasz, Judit Hajdú, Dorottya Mátrai, Zoltán Csuka, Orsolya Uchida, Koji Tóvári, József Engebraten, Olav Akaike, Takaaki Børresen Dale, Anne-Lise Kásler, Miklós Lehtiö, Janne Nagy, Péter Proc Natl Acad Sci U S A Biological Sciences Basal-like breast cancer (BLBC) is the most aggressive subtype of breast tumors with poor prognosis and limited molecular-targeted therapy options. We show that BLBC cells have a high Cys demand and reprogrammed Cys metabolism. Patient-derived BLBC tumors from four different cohorts exhibited elevated expression of the transsulfuration enzyme cystathione β-synthetase (CBS). CBS silencing (shCBS) made BLBC cells less invasive, proliferate slower, more vulnerable to oxidative stress and cystine (CySSCy) deprivation, prone to ferroptosis, and less responsive to HIF1-α activation under hypoxia. shCBS xenograft tumors grew slower than controls and exhibited impaired angiogenesis and larger necrotic areas. Sulfur metabolite profiling suggested that realigned sulfide/persulfide-inducing functions of CBS are important in BLBC tumor progression. Supporting this, the exclusion of serine, a substrate of CBS for producing Cys but not for producing sulfide/persulfide, did not exacerbate CySSCy deprivation–induced ferroptosis in shCBS BLBC cells. Impaired Tyr phosphorylation was detected in shCBS cells and xenografts, likely due to persulfidation-inhibited phosphatase functions. Overexpression of cystathione γ-lyase (CSE), which can also contribute to cellular sulfide/persulfide production, compensated for the loss of CBS activities, and treatment of shCBS xenografts with a CSE inhibitor further blocked tumor growth. Glutathione and protein-Cys levels were not diminished in shCBS cells or xenografts, but levels of Cys persulfidation and the persulfide-catabolizing enzyme ETHE1 were suppressed. Finally, expression of enzymes of the oxidizing Cys catabolism pathway was diminished, but expression of the persulfide-producing CARS2 was elevated in human BLBC tumors. Hence, the persulfide-producing pathways are major targetable determinants of BLBC pathology that could be therapeutically exploited. National Academy of Sciences 2021-11-05 2021-11-09 /pmc/articles/PMC8609449/ /pubmed/34737229 http://dx.doi.org/10.1073/pnas.2100050118 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Erdélyi, Katalin
Ditrói, Tamás
Johansson, Henrik J.
Czikora, Ágnes
Balog, Noémi
Silwal-Pandit, Laxmi
Ida, Tomoaki
Olasz, Judit
Hajdú, Dorottya
Mátrai, Zoltán
Csuka, Orsolya
Uchida, Koji
Tóvári, József
Engebraten, Olav
Akaike, Takaaki
Børresen Dale, Anne-Lise
Kásler, Miklós
Lehtiö, Janne
Nagy, Péter
Reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation
title Reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation
title_full Reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation
title_fullStr Reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation
title_full_unstemmed Reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation
title_short Reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation
title_sort reprogrammed transsulfuration promotes basal-like breast tumor progression via realigning cellular cysteine persulfidation
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8609449/
https://www.ncbi.nlm.nih.gov/pubmed/34737229
http://dx.doi.org/10.1073/pnas.2100050118
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