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

Centenera, Margaret M.; Scott, Julia S.; Machiels, Jelle; Nassar, Zeyad D.; Miller, Deanna C.; Zinonos, Irene; Dehairs, Jonas; Burvenich, Ingrid; Zadra, Giorgia; Chetta, Paolo; 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; Loda, Massimo; Selth, Luke A.; Swinnen, Johannes V.; Butler, Lisa M.

doi:10.1158/0008-5472.can-20-2511

Cited by 57 publications

(64 citation statements)

References 50 publications

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“…Therefore, the observed changes in the relative abundance of PC 34:1 n -7 and PC 34:1 n -9 within prostate tissue ( Figure 2 ) indicate a discrete difference in the ordering of desaturation and elongation reactions, and suggests region-specific aberrations in the SCD-1 and ELOVL5 and/or ELOVL6 enzyme system(s). Indeed, recent work has shown that ELOVL5 is significantly upregulated within prostate cancer and depletion of the elongase lead to the generation of reactive oxidative lipid species and hindered cancer cell growth and proliferation ( 38 ). Previous research has implicated these enzyme systems in cancer, with overexpression of SCD-1 being linked to progression and growth of hepatocellular ( 39 ), renal ( 40 ), colorectal ( 41 ) and prostate ( 42 ) cancers.…”

Section: Discussionmentioning

confidence: 99%

Isomer-Resolved Imaging of Prostate Cancer Tissues Reveals Specific Lipid Unsaturation Profiles Associated With Lymphocytes and Abnormal Prostate Epithelia

et al. 2021

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Prostate cancer is the fourth most common cancer worldwide with definitive diagnosis reliant on biopsy and human-graded histopathology. As with other pathologies, grading based on classical haematoxylin and eosin (H&E) staining of formalin fixed paraffin-embedded material can be prone to variation between pathologists, prompting investigation of biomolecular markers. Comprising around 50% of cellular mass, and with known metabolic variations in cancer, lipids provide a promising target for molecular pathology. Here we apply isomer-resolved lipidomics in combination with imaging mass spectrometry to interrogate tissue sections from radical prostatectomy specimens. Guided by the histopathological assessment of adjacent tissue sections, regions of interest are investigated for molecular signatures associated with lipid metabolism, especially desaturation and elongation pathways. Monitoring one of the most abundant cellular membrane lipids within these tissues, phosphatidylcholine (PC) 34:1, high positive correlation was observed between the n-9 isomer (site of unsaturation 9-carbons from the methyl terminus) and epithelial cells from potential pre-malignant lesions, while the n-7 isomer abundance was observed to correlate with immune cell infiltration and inflammation. The correlation of lipid isomer signatures with human disease states in tissue suggests a future role for isomer-resolved mass spectrometry imaging in assisting pathologists with prostate cancer diagnoses and patient stratification.

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Section: Discussionmentioning

confidence: 99%

Isomer-Resolved Imaging of Prostate Cancer Tissues Reveals Specific Lipid Unsaturation Profiles Associated With Lymphocytes and Abnormal Prostate Epithelia

et al. 2021

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“…Certainly a possibility is that increased quantities of intracellular fatty acids are beneficial. This is supported by experiments that show that 1) supplementation of fatty acids can rescue growth inhibition due to inhibition of fatty acid synthesis (49,54,56) and 2) inhibition of lipid uptake also inhibits prostate cancer growth (79,80). Indeed the dogma of de novo fatty acid synthesis in cancer is that it is a critical source of lipids that serve as biosynthetic building blocks for cell and organelle membrane formation for rapid proliferation.…”

Section: Benefit Of Fatty Acid Synthesis For Prostate Cancer Progressionmentioning

confidence: 95%

“…Inhibition of the rate-limiting enzyme ACC by RNAi-mediated silencing or by soraphen A reduced proliferation of CRPC cell lines, which could be rescued by addition of palmitate to the media (52,53). Moreover, genetic knock-down of the fatty acid elongases ELOVL5 (54) or ELOVL7 (26) inhibits growth of CRPC xenograft tumors and human tumor explants. Interestingly, ELOVL5 knock-down also reduced metastasis of mouse orthotopic prostate cancer, and in vitro growth could be rescued by supplementation with cis-vaccenic acid, the fatty acid product of ELOVL5 (54).…”

Section: Fatty Acid Synthesis May Drive Prostate Cancer Development and Progressionmentioning

confidence: 99%

“…Moreover, genetic knock-down of the fatty acid elongases ELOVL5 (54) or ELOVL7 (26) inhibits growth of CRPC xenograft tumors and human tumor explants. Interestingly, ELOVL5 knock-down also reduced metastasis of mouse orthotopic prostate cancer, and in vitro growth could be rescued by supplementation with cis-vaccenic acid, the fatty acid product of ELOVL5 (54). This study suggests that de novo fatty acid synthesis may be important for metastasis in addition to proliferation.…”

Section: Fatty Acid Synthesis May Drive Prostate Cancer Development and Progressionmentioning

confidence: 99%

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Fatty Acid Synthesis in Prostate Cancer: Vulnerability or Epiphenomenon?

Sena

Denmeade

2021

Cancer Research

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Tumor metabolism supports the energetic and biosynthetic needs of rapidly proliferating cancer cells and modifies intra-and intercellular signaling to enhance cancer cell invasion, metastasis, and immune evasion. Prostate cancer exhibits unique metabolism with high rates of de novo fatty acid synthesis driven by activation of the androgen receptor (AR). Increasing evidence suggests that activation of this pathway is functionally important to promote prostate cancer aggressiveness. However, the mechanisms by which fatty acid synthesis are beneficial to prostate cancer have not been well defined. In this Review, we summarize evidence indicating that fatty acid synthesis drives progression of prostate cancer. We also explore explanations for this phenomenon and discuss future directions for targeting this pathway for patient benefit.

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“…These features were rescued by the supplementation of cis-vaccenic MUFA, a direct product of ELOVL-5 elongation. These data suggest that lipid elongation is a metastasis-promoter metabolic pathway, which is targetable via ELOVL-5 (52). Aside from membrane lipid elongation, ELOVL-5 has more recently been involved in the generation of eicosanoids, inflammatory lipids with potent pro-tumorigenic signaling effects (9).…”

Section: Alterations In Fa Modellingmentioning

confidence: 96%

Prostate Cancer Progression: as a Matter of Fats

2021

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Advanced prostate cancer (PCa) represents the fifth cause of cancer death worldwide. Although survival has improved with second-generation androgen signaling and Parp inhibitors, the benefits are not long-lasting, and new therapeutic approaches are sorely needed. Lipids and their metabolism have recently reached the spotlight with accumulating evidence for their role as promoters of PCa development, progression, and metastasis. As a result, interest in targeting enzymes/transporters involved in lipid metabolism is rapidly growing. Moreover, the use of lipogenic signatures to predict prognosis and resistance to therapy has been recently explored with promising results. Despite the well-known association between obesity with PCa lethality, the underlying mechanistic role of diet/obesity-derived metabolites has only lately been unveiled. Furthermore, the role of lipids as energy source, building blocks, and signaling molecules in cancer cells has now been revisited and expanded in the context of the tumor microenvironment (TME), which is heavily influenced by the external environment and nutrient availability. Here, we describe how lipids, their enzymes, transporters, and modulators can promote PCa development and progression, and we emphasize the role of lipids in shaping TME. In a therapeutic perspective, we describe the ongoing efforts in targeting lipogenic hubs. Finally, we highlight studies supporting dietary modulation in the adjuvant setting with the purpose of achieving greater efficacy of the standard of care and of synthetic lethality. PCa progression is “a matter of fats”, and the more we understand about the role of lipids as key players in this process, the better we can develop approaches to counteract their tumor promoter activity while preserving their beneficial properties.

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

Cited by 57 publications

References 50 publications

Isomer-Resolved Imaging of Prostate Cancer Tissues Reveals Specific Lipid Unsaturation Profiles Associated With Lymphocytes and Abnormal Prostate Epithelia

Isomer-Resolved Imaging of Prostate Cancer Tissues Reveals Specific Lipid Unsaturation Profiles Associated With Lymphocytes and Abnormal Prostate Epithelia

Fatty Acid Synthesis in Prostate Cancer: Vulnerability or Epiphenomenon?

Prostate Cancer Progression: as a Matter of Fats

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