伪FADS2活性促进癌症中的脂肪酸多样化。

Apocryphal FADS2 activity promotes fatty acid diversification in cancer.

作者信息

Young Reuben S E, Bowman Andrew P, Williams Elizabeth D, Tousignant Kaylyn D, Bidgood Charles L, Narreddula Venkateswara R, Gupta Rajesh, Marshall David L, Poad Berwyck L J, Nelson Colleen C, Ellis Shane R, Heeren Ron M A, Sadowski Martin C, Blanksby Stephen J

机构信息

School of Chemistry and Physics, Queensland University of Technology, Brisbane, QLD 4000, Australia.

M4I, The Maastricht MultiModal Molecular Imaging Institute, Division of Imaging Mass Spectrometry, Maastricht University, Universiteitssingel 50, 6229 ER Maastricht, the Netherlands.

出版信息

Cell Rep. 2021 Feb 9;34(6):108738. doi: 10.1016/j.celrep.2021.108738.

DOI:10.1016/j.celrep.2021.108738

PMID:33567271

Abstract

Canonical fatty acid metabolism describes specific enzyme-substrate interactions that result in products with well-defined chain lengths, degree(s), and positions of unsaturation. Deep profiling of lipids across a range of prostate cancer cell lines reveals a variety of fatty acids with unusual site(s) of unsaturation that are not described by canonical pathways. The structure and abundance of these unusual lipids correlate with changes in desaturase expression and are strong indicators of cellular phenotype. Gene silencing and stable isotope tracing demonstrate that direct Δ6 and Δ8 desaturation of 14:0 (myristic), 16:0 (palmitic), and 18:0 (stearic) acids by FADS2 generate new families of unsaturated fatty acids (including n-8, n-10, and n-12) that have rarely-if ever-been reported in human-derived cells. Isomer-resolved lipidomics reveals the selective incorporation of these unusual fatty acids into complex structural lipids and identifies their presence in cancer tissues, indicating functional roles in membrane structure and signaling.

摘要

经典脂肪酸代谢描述了特定的酶 - 底物相互作用，这些相互作用产生具有明确链长、不饱和度程度和位置的产物。对一系列前列腺癌细胞系的脂质进行深度分析，发现了多种具有非经典途径所描述的不寻常不饱和位点的脂肪酸。这些不寻常脂质的结构和丰度与去饱和酶表达的变化相关，并且是细胞表型的有力指标。基因沉默和稳定同位素示踪表明，FADS2对14:0（肉豆蔻酸）、16:0（棕榈酸）和18:0（硬脂酸）进行直接Δ6和Δ8去饱和作用，产生了新的不饱和脂肪酸家族（包括n - 8、n - 10和n - 12），这些脂肪酸在人源细胞中很少被报道（如果有的话）。异构体分辨脂质组学揭示了这些不寻常脂肪酸选择性地掺入复杂结构脂质中，并确定了它们在癌组织中的存在，表明它们在膜结构和信号传导中具有功能作用。

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伪FADS2活性促进癌症中的脂肪酸多样化。

Apocryphal FADS2 activity promotes fatty acid diversification in cancer.

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