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Literature DB >> 23602813

miRNAs link metabolic reprogramming to oncogenesis.

Maria Hatziapostolou¹, Christos Polytarchou, Dimitrios Iliopoulos.

Abstract

The most profound biochemical phenotype of cancer cells is their ability to metabolize glucose to lactate, even under aerobic conditions. This alternative metabolic circuitry is sufficient to support the biosynthetic and energy requirements for cancer cell proliferation and metastasis. Alterations in oncogenes and tumor-suppressor genes are involved in the metabolic switch of cancer cells to aerobic glycolysis, increased glutaminolysis, and fatty acid biosynthesis. miRNAs mediate fine-tuning of genes involved directly or indirectly in cancer metabolism. In this review we discuss the regulatory role of miRNAs on enzymes, signaling pathways, and transcription factors involved in glucose and lipid metabolism. We further consider the therapeutic potential of metabolism-related miRNAs in cancer.

Entities: Chemical Disease

Mesh：

Substances：
MicroRNAs
Glutamine

Year: 2013 PMID： 23602813 DOI： 10.1016/j.tem.2013.03.002

Source DB: PubMed Journal: Trends Endocrinol Metab ISSN： 1043-2760 Impact factor: 12.015

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Cited

41 in total

1. Regulation of onco and tumor suppressor MiRNAs by mTORC1 inhibitor PRP-1 in human chondrosarcoma.

Authors: Karina A Galoian; Toumy Guettouche; Biju Issac; Amir Qureshi; H T Temple
Journal: Tumour Biol Date: 2013-11-01

2. PFKL/miR-128 axis regulates glycolysis by inhibiting AKT phosphorylation and predicts poor survival in lung cancer.

Authors: Jie Yang; Jingqiu Li; Yanping Le; Chengwei Zhou; Shun Zhang; Zhaohui Gong
Journal: Am J Cancer Res Date: 2016-01-15 Impact factor: 6.166

3. miRNAs differentially expressed by next-generation sequencing in cord blood buffy coat samples of boys and girls.

Authors: Daneida Lizarraga; Karen Huen; Mary Combs; Maria Escudero-Fung; Brenda Eskenazi; Nina Holland
Journal: Epigenomics Date: 2016-11-24 Impact factor: 4.778

4. Lost miRNA surveillance of Notch, IGFR pathway--road to sarcomagenesis.

Authors: K Galoian; T Guettouche; B Issac; L Navarro; H T Temple
Journal: Tumour Biol Date: 2014-01

5. MicroRNA-203 Inhibits Long Noncoding RNA HOTAIR and Regulates Tumorigenesis through Epithelial-to-mesenchymal Transition Pathway in Renal Cell Carcinoma.

Authors: Pritha Dasgupta; Priyanka Kulkarni; Shahana Majid; Varahram Shahryari; Yutaka Hashimoto; Nadeem S Bhat; Marisa Shiina; Guoren Deng; Sharanjot Saini; Z Laura Tabatabai; Soichiro Yamamura; Yuichiro Tanaka; Rajvir Dahiya
Journal: Mol Cancer Ther Date: 2018-02-13 Impact factor: 6.261

Review 6. A step-by-step microRNA guide to cancer development and metastasis.

Authors: Georgios S Markopoulos; Eugenia Roupakia; Maria Tokamani; Evangelia Chavdoula; Maria Hatziapostolou; Christos Polytarchou; Kenneth B Marcu; Athanasios G Papavassiliou; Raphael Sandaltzopoulos; Evangelos Kolettas
Journal: Cell Oncol (Dordr) Date: 2017-07-26 Impact factor: 6.730

7. MicroRNA214 Is Associated With Progression of Ulcerative Colitis, and Inhibition Reduces Development of Colitis and Colitis-Associated Cancer in Mice.

Authors: Christos Polytarchou; Daniel W Hommes; Tiziana Palumbo; Maria Hatziapostolou; Marina Koutsioumpa; Georgios Koukos; Andrea E van der Meulen-de Jong; Angelos Oikonomopoulos; Welmoed K van Deen; Christina Vorvis; Oksana B Serebrennikova; Eleni Birli; Jennifer Choi; Lin Chang; Peter A Anton; Philip N Tsichlis; Charalabos Pothoulakis; Hein W Verspaget; Dimitrios Iliopoulos
Journal: Gastroenterology Date: 2015-06-06 Impact factor: 22.682