Literature DB >> 31092908

Lipid metabolism in cancer cells under metabolic stress.

Rimsha Munir1, Jan Lisec2, Johannes V Swinnen3, Nousheen Zaidi4.   

Abstract

Cancer cells are often exposed to a metabolically challenging environment with scarce availability of oxygen and nutrients. This metabolic stress leads to changes in the balance between the endogenous synthesis and exogenous uptake of fatty acids, which are needed by cells for membrane biogenesis, energy production and protein modification. Alterations in lipid metabolism and, consequently, lipid composition have important therapeutic implications, as they affect the survival, membrane dynamics and therapy response of cancer cells. In this article, we provide an overview of recent insights into the regulation of lipid metabolism in cancer cells under metabolic stress and discuss how this metabolic adaptation helps cancer cells thrive in a harsh tumour microenvironment.

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Year:  2019        PMID: 31092908      PMCID: PMC6738079          DOI: 10.1038/s41416-019-0451-4

Source DB:  PubMed          Journal:  Br J Cancer        ISSN: 0007-0920            Impact factor:   7.640


  75 in total

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2.  Hypoxia causes triglyceride accumulation by HIF-1-mediated stimulation of lipin 1 expression.

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Journal:  Drug Resist Updat       Date:  2011-04-03       Impact factor: 18.500

Review 4.  The interplay between cell signalling and the mevalonate pathway in cancer.

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5.  Hypoxic and Ras-transformed cells support growth by scavenging unsaturated fatty acids from lysophospholipids.

Authors:  Jurre J Kamphorst; Justin R Cross; Jing Fan; Elisa de Stanchina; Robin Mathew; Eileen P White; Craig B Thompson; Joshua D Rabinowitz
Journal:  Proc Natl Acad Sci U S A       Date:  2013-05-13       Impact factor: 11.205

6.  Integrated metabolite and gene expression profiles identify lipid biomarkers associated with progression of hepatocellular carcinoma and patient outcomes.

Authors:  Anuradha Budhu; Stephanie Roessler; Xuelian Zhao; Zhipeng Yu; Marshonna Forgues; Junfang Ji; Edward Karoly; Lun-Xiu Qin; Qing-Hai Ye; Hu-Liang Jia; Jia Fan; Hui-Chuan Sun; Zhao-You Tang; Xin Wei Wang
Journal:  Gastroenterology       Date:  2013-01-31       Impact factor: 22.682

Review 7.  Targeting HIF-1 for cancer therapy.

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Journal:  Nat Rev Cancer       Date:  2003-10       Impact factor: 60.716

8.  SREBP maintains lipid biosynthesis and viability of cancer cells under lipid- and oxygen-deprived conditions and defines a gene signature associated with poor survival in glioblastoma multiforme.

Authors:  C A Lewis; C Brault; B Peck; K Bensaad; B Griffiths; R Mitter; P Chakravarty; P East; B Dankworth; D Alibhai; A L Harris; A Schulze
Journal:  Oncogene       Date:  2015-01-26       Impact factor: 9.867

9.  Hypoxia induces a lipogenic cancer cell phenotype via HIF1α-dependent and -independent pathways.

Authors:  Alessandro Valli; Miguel Rodriguez; Loukas Moutsianas; Roman Fischer; Vita Fedele; Hong-Lei Huang; Ruud Van Stiphout; Dylan Jones; Michael Mccarthy; Maria Vinaxia; Kaori Igarashi; Maya Sato; Tomoyoshi Soga; Francesca Buffa; James Mccullagh; Oscar Yanes; Adrian Harris; Benedikt Kessler
Journal:  Oncotarget       Date:  2015-02-10

10.  Effects of acute hypoxia on human adipose tissue lipoprotein lipase activity and lipolysis.

Authors:  Bimit Mahat; Étienne Chassé; Jean-François Mauger; Pascal Imbeault
Journal:  J Transl Med       Date:  2016-07-15       Impact factor: 5.531
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  83 in total

1.  Molecular alterations in oral cancer using high-throughput proteomic analysis of formalin-fixed paraffin-embedded tissue.

Authors:  Varshasnata Mohanty; Yashwanth Subbannayya; Shankargouda Patil; Vinuth N Puttamallesh; Mohd Altaf Najar; Keshava K Datta; Sneha M Pinto; Sameera Begum; Neeta Mohanty; Samapika Routray; Riaz Abdulla; Jay Gopal Ray; David Sidransky; Harsha Gowda; T S Keshava Prasad; Aditi Chatterjee
Journal:  J Cell Commun Signal       Date:  2021-03-08       Impact factor: 5.782

2.  Dysregulated lipid metabolism in hepatocellular carcinoma cancer stem cells.

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Journal:  Mol Biol Rep       Date:  2020-03-03       Impact factor: 2.316

Review 3.  Lipidomic and Membrane Mechanical Signatures in Triple-Negative Breast Cancer: Scope for Membrane-Based Theranostics.

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Review 4.  A "Weird" Mitochondrial Fatty Acid Oxidation as a Metabolic "Secret" of Cancer.

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Journal:  Oxid Med Cell Longev       Date:  2022-02-08       Impact factor: 6.543

Review 5.  Regulation of tumor metabolism by post translational modifications on metabolic enzymes.

Authors:  Abhisha Sawant Dessai; Poonam Kalhotra; Aaron T Novickis; Subhamoy Dasgupta
Journal:  Cancer Gene Ther       Date:  2022-08-23       Impact factor: 5.854

Review 6.  Metabolic regulation of T cells in the tumor microenvironment by nutrient availability and diet.

Authors:  Steven Zhao; Ronal M Peralta; Natalia Avina-Ochoa; Greg M Delgoffe; Susan M Kaech
Journal:  Semin Immunol       Date:  2021-08-27       Impact factor: 10.671

7.  IL-33-Induced Transcriptional Activation of LPIN1 Accelerates Breast Tumorigenesis.

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Review 8.  Programmed cell death, redox imbalance, and cancer therapeutics.

Authors:  Xiaofeng Dai; Danjun Wang; Jianying Zhang
Journal:  Apoptosis       Date:  2021-07-08       Impact factor: 4.677

9.  Probing metabolic alterations in breast cancer in response to molecular inhibitors with Raman spectroscopy and validated with mass spectrometry.

Authors:  Xiaona Wen; Yu-Chuan Ou; Galina Bogatcheva; Giju Thomas; Anita Mahadevan-Jansen; Bhuminder Singh; Eugene C Lin; Rizia Bardhan
Journal:  Chem Sci       Date:  2020-08-20       Impact factor: 9.969

10.  Toward Quantitative in vivo Label-Free Tracking of Lipid Distribution in a Zebrafish Cancer Model.

Authors:  Marco Andreana; Caterina Sturtzel; Clemens P Spielvogel; Laszlo Papp; Rainer Leitgeb; Wolfgang Drexler; Martin Distel; Angelika Unterhuber
Journal:  Front Cell Dev Biol       Date:  2021-07-01
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