ELOVL5 Is a Critical and Targetable Fatty Acid Elongase in Prostate Cancer

ELOVL5 Is a Critical and Targetable Fatty Acid Elongase in Prostate Cancer

The androgen receptor (AR) is the key oncogenic driver of prostate cancer, and despite implementation of novel AR targeting therapies, outcomes for metastatic disease remain dismal. There is an urgent need to better understand androgen-regulated cellular processes to more effectively target the AR d...

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Veröffentlicht in:CANCER RESEARCH 2021-04, Vol.81 (7), p.1704-1718
Hauptverfasser: Centenera, Margaret M, Scott, Julia S, Machiels, Jelle, Nassar, Zeyad D, Miller, Deanna C, Zinonos, Irene, Dehairs, Jonas, Burvenich, Ingrid J.G, Zadra, Giorgia, Chetta, Paolo M, Bango, Clyde, Evergren, Emma, Ryan, Natalie K, Gillis, Joanna L, Mah, Chui Yan, Tieu, Terence, Hanson, Adrienne R, Carelli, Ryan, Bloch, Katarzyna, Panagopoulos, Vasilios, Waelkens, Etienne, Derua, Rita, Williams, Elizabeth D, Evdokiou, Andreas, Cifuentes-Rius, Anna, Voelcker, Nicolas H, Mills, Ian G, Tilley, Wayne D, Scott, Andrew M, Loda, Massimo, Selth, Luke A, Swinnen, Johannes, Butler, Lisa M
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container_end_page 1718
container_issue 7
container_start_page 1704
container_title CANCER RESEARCH
container_volume 81
creator Centenera, Margaret M
Scott, Julia S
Machiels, Jelle
Nassar, Zeyad D
Miller, Deanna C
Zinonos, Irene
Dehairs, Jonas
Burvenich, Ingrid J.G
Zadra, Giorgia
Chetta, Paolo M
Bango, Clyde
Evergren, Emma
Ryan, Natalie K
Gillis, Joanna L
Mah, Chui Yan
Tieu, Terence
Hanson, Adrienne R
Carelli, Ryan
Bloch, Katarzyna
Panagopoulos, Vasilios
Waelkens, Etienne
Derua, Rita
Williams, Elizabeth D
Evdokiou, Andreas
Cifuentes-Rius, Anna
Voelcker, Nicolas H
Mills, Ian G
Tilley, Wayne D
Scott, Andrew M
Loda, Massimo
Selth, Luke A
Swinnen, Johannes
Butler, Lisa M
description The androgen receptor (AR) is the key oncogenic driver of prostate cancer, and despite implementation of novel AR targeting therapies, outcomes for metastatic disease remain dismal. There is an urgent need to better understand androgen-regulated cellular processes to more effectively target the AR dependence of prostate cancer cells through new therapeutic vulnerabilities. Transcriptomic studies have consistently identified lipid metabolism as a hallmark of enhanced AR signaling in prostate cancer, yet the relationship between AR and the lipidome remains undefined. Using mass spectrometry-based lipidomics, this study reveals increased fatty acyl chain length in phospholipids from prostate cancer cells and patient-derived explants as one of the most striking androgen-regulated changes to lipid metabolism. Potent and direct AR-mediated induction of ELOVL fatty acid elongase 5 (ELOVL5), an enzyme that catalyzes fatty acid elongation, was demonstrated in prostate cancer cells, xenografts, and clinical tumors. Assessment of mRNA and protein in large-scale data sets revealed ELOVL5 as the predominant ELOVL expressed and upregulated in prostate cancer compared with nonmalignant prostate. ELOVL5 depletion markedly altered mitochondrial morphology and function, leading to excess generation of reactive oxygen species and resulting in suppression of prostate cancer cell proliferation, 3D growth, and in vivo tumor growth and metastasis. Supplementation with the monounsaturated fatty acid cis-vaccenic acid, a direct product of ELOVL5 elongation, reversed the oxidative stress and associated cell proliferation and migration effects of ELOVL5 knockdown. Collectively, these results identify lipid elongation as a protumorigenic metabolic pathway in prostate cancer that is androgen-regulated, critical for metastasis, and targetable via ELOVL5. SIGNIFICANCE: This study identifies phospholipid elongation as a new metabolic target of androgen action that is critical for prostate tumor metastasis.
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There is an urgent need to better understand androgen-regulated cellular processes to more effectively target the AR dependence of prostate cancer cells through new therapeutic vulnerabilities. Transcriptomic studies have consistently identified lipid metabolism as a hallmark of enhanced AR signaling in prostate cancer, yet the relationship between AR and the lipidome remains undefined. Using mass spectrometry-based lipidomics, this study reveals increased fatty acyl chain length in phospholipids from prostate cancer cells and patient-derived explants as one of the most striking androgen-regulated changes to lipid metabolism. Potent and direct AR-mediated induction of ELOVL fatty acid elongase 5 (ELOVL5), an enzyme that catalyzes fatty acid elongation, was demonstrated in prostate cancer cells, xenografts, and clinical tumors. Assessment of mRNA and protein in large-scale data sets revealed ELOVL5 as the predominant ELOVL expressed and upregulated in prostate cancer compared with nonmalignant prostate. ELOVL5 depletion markedly altered mitochondrial morphology and function, leading to excess generation of reactive oxygen species and resulting in suppression of prostate cancer cell proliferation, 3D growth, and in vivo tumor growth and metastasis. Supplementation with the monounsaturated fatty acid cis-vaccenic acid, a direct product of ELOVL5 elongation, reversed the oxidative stress and associated cell proliferation and migration effects of ELOVL5 knockdown. Collectively, these results identify lipid elongation as a protumorigenic metabolic pathway in prostate cancer that is androgen-regulated, critical for metastasis, and targetable via ELOVL5. 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Assessment of mRNA and protein in large-scale data sets revealed ELOVL5 as the predominant ELOVL expressed and upregulated in prostate cancer compared with nonmalignant prostate. ELOVL5 depletion markedly altered mitochondrial morphology and function, leading to excess generation of reactive oxygen species and resulting in suppression of prostate cancer cell proliferation, 3D growth, and in vivo tumor growth and metastasis. Supplementation with the monounsaturated fatty acid cis-vaccenic acid, a direct product of ELOVL5 elongation, reversed the oxidative stress and associated cell proliferation and migration effects of ELOVL5 knockdown. Collectively, these results identify lipid elongation as a protumorigenic metabolic pathway in prostate cancer that is androgen-regulated, critical for metastasis, and targetable via ELOVL5. 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title ELOVL5 Is a Critical and Targetable Fatty Acid Elongase in Prostate Cancer
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