CD36-Mediated Metabolic Rewiring of Breast Cancer Cells Promotes Resistance to HER2-Targeted Therapies

Although it is established that fatty acid (FA) synthesis supports anabolic growth in cancer, the role of exogenous FA uptake remains elusive. Here we show that, during acquisition of resistance to HER2 inhibition, metabolic rewiring of breast cancer cells favors reliance on exogenous FA uptake over...

Descripción completa

Detalles Bibliográficos
Autores principales: Feng, William W., Wilkins, Owen, Bang, Scott, Ung, Matthew, Li, Jiaqi, An, Jennifer, del Genio, Carmen, Canfield, Kaleigh, DiRenzo, James, Wells, Wendy, Gaur, Arti, Robey, R. Brooks, Guo, Jessie Yanxiang, Powles, Ryan L., Sotiriou, Christos, Pusztai, Lajos, Febbraio, Maria, Cheng, Chao, Kinlaw, William B., Kurokawa, Manabu
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6938262/
https://www.ncbi.nlm.nih.gov/pubmed/31825825
http://dx.doi.org/10.1016/j.celrep.2019.11.008
_version_ 1783484006618103808
author Feng, William W.
Wilkins, Owen
Bang, Scott
Ung, Matthew
Li, Jiaqi
An, Jennifer
del Genio, Carmen
Canfield, Kaleigh
DiRenzo, James
Wells, Wendy
Gaur, Arti
Robey, R. Brooks
Guo, Jessie Yanxiang
Powles, Ryan L.
Sotiriou, Christos
Pusztai, Lajos
Febbraio, Maria
Cheng, Chao
Kinlaw, William B.
Kurokawa, Manabu
author_facet Feng, William W.
Wilkins, Owen
Bang, Scott
Ung, Matthew
Li, Jiaqi
An, Jennifer
del Genio, Carmen
Canfield, Kaleigh
DiRenzo, James
Wells, Wendy
Gaur, Arti
Robey, R. Brooks
Guo, Jessie Yanxiang
Powles, Ryan L.
Sotiriou, Christos
Pusztai, Lajos
Febbraio, Maria
Cheng, Chao
Kinlaw, William B.
Kurokawa, Manabu
author_sort Feng, William W.
collection PubMed
description Although it is established that fatty acid (FA) synthesis supports anabolic growth in cancer, the role of exogenous FA uptake remains elusive. Here we show that, during acquisition of resistance to HER2 inhibition, metabolic rewiring of breast cancer cells favors reliance on exogenous FA uptake over de novo FA synthesis. Through cDNA microarray analysis, we identify the FA transporter CD36 as a critical gene upregulated in cells with acquired resistance to the HER2 inhibitor lapatinib. Accordingly, resistant cells exhibit increased exogenous FA uptake and metabolic plasticity. Genetic or pharmacological inhibition of CD36 suppresses the growth of lapatinib-resistant but not lapatinib-sensitive cells in vitro and in vivo. Deletion of Cd36 in mammary tissues of MMTV-neu mice significantly attenuates tumorigenesis. In breast cancer patients, CD36 expression increases following anti-HER2 therapy, which correlates with a poor prognosis. Our results define CD36-mediated metabolic rewiring as an essential survival mechanism in HER2-positive breast cancer.
format Online
Article
Text
id pubmed-6938262
institution National Center for Biotechnology Information
language English
publishDate 2019
record_format MEDLINE/PubMed
spelling pubmed-69382622019-12-31 CD36-Mediated Metabolic Rewiring of Breast Cancer Cells Promotes Resistance to HER2-Targeted Therapies Feng, William W. Wilkins, Owen Bang, Scott Ung, Matthew Li, Jiaqi An, Jennifer del Genio, Carmen Canfield, Kaleigh DiRenzo, James Wells, Wendy Gaur, Arti Robey, R. Brooks Guo, Jessie Yanxiang Powles, Ryan L. Sotiriou, Christos Pusztai, Lajos Febbraio, Maria Cheng, Chao Kinlaw, William B. Kurokawa, Manabu Cell Rep Article Although it is established that fatty acid (FA) synthesis supports anabolic growth in cancer, the role of exogenous FA uptake remains elusive. Here we show that, during acquisition of resistance to HER2 inhibition, metabolic rewiring of breast cancer cells favors reliance on exogenous FA uptake over de novo FA synthesis. Through cDNA microarray analysis, we identify the FA transporter CD36 as a critical gene upregulated in cells with acquired resistance to the HER2 inhibitor lapatinib. Accordingly, resistant cells exhibit increased exogenous FA uptake and metabolic plasticity. Genetic or pharmacological inhibition of CD36 suppresses the growth of lapatinib-resistant but not lapatinib-sensitive cells in vitro and in vivo. Deletion of Cd36 in mammary tissues of MMTV-neu mice significantly attenuates tumorigenesis. In breast cancer patients, CD36 expression increases following anti-HER2 therapy, which correlates with a poor prognosis. Our results define CD36-mediated metabolic rewiring as an essential survival mechanism in HER2-positive breast cancer. 2019-12-10 /pmc/articles/PMC6938262/ /pubmed/31825825 http://dx.doi.org/10.1016/j.celrep.2019.11.008 Text en This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Feng, William W.
Wilkins, Owen
Bang, Scott
Ung, Matthew
Li, Jiaqi
An, Jennifer
del Genio, Carmen
Canfield, Kaleigh
DiRenzo, James
Wells, Wendy
Gaur, Arti
Robey, R. Brooks
Guo, Jessie Yanxiang
Powles, Ryan L.
Sotiriou, Christos
Pusztai, Lajos
Febbraio, Maria
Cheng, Chao
Kinlaw, William B.
Kurokawa, Manabu
CD36-Mediated Metabolic Rewiring of Breast Cancer Cells Promotes Resistance to HER2-Targeted Therapies
title CD36-Mediated Metabolic Rewiring of Breast Cancer Cells Promotes Resistance to HER2-Targeted Therapies
title_full CD36-Mediated Metabolic Rewiring of Breast Cancer Cells Promotes Resistance to HER2-Targeted Therapies
title_fullStr CD36-Mediated Metabolic Rewiring of Breast Cancer Cells Promotes Resistance to HER2-Targeted Therapies
title_full_unstemmed CD36-Mediated Metabolic Rewiring of Breast Cancer Cells Promotes Resistance to HER2-Targeted Therapies
title_short CD36-Mediated Metabolic Rewiring of Breast Cancer Cells Promotes Resistance to HER2-Targeted Therapies
title_sort cd36-mediated metabolic rewiring of breast cancer cells promotes resistance to her2-targeted therapies
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6938262/
https://www.ncbi.nlm.nih.gov/pubmed/31825825
http://dx.doi.org/10.1016/j.celrep.2019.11.008
work_keys_str_mv AT fengwilliamw cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT wilkinsowen cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT bangscott cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT ungmatthew cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT lijiaqi cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT anjennifer cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT delgeniocarmen cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT canfieldkaleigh cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT direnzojames cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT wellswendy cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT gaurarti cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT robeyrbrooks cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT guojessieyanxiang cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT powlesryanl cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT sotiriouchristos cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT pusztailajos cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT febbraiomaria cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT chengchao cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT kinlawwilliamb cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies
AT kurokawamanabu cd36mediatedmetabolicrewiringofbreastcancercellspromotesresistancetoher2targetedtherapies

Ejemplares similares