MicroRNAs and oncogenic transcriptional regulatory networks controlling metabolic reprogramming in cancers

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• 作者：Pannapa Pinweha^a ; ¹ ; Khanti Rattanapornsompong^a ; ¹ ; Varodom Charoensawan^a ; ^b ; Sarawut Jitrapakdee^a ; ^{sarawut.jit@mahidol.ac.th}
• 关键词：ACC ; acetyl-CoA carboxylase ; ACL ; ATP-citrate lyase ; BRCA1 ; breast cancer type 1 susceptibility protein ; c-MYC ; V-myc avian myelocytomatosis viral oncogene homolog ; FAS ; fatty acid synthase ; FH ; fumarate hydratase ; G6PD ; glucose-6-phosphate dehydrogenase ; GDH ; glutamate dehydrogenase ; GLS ; glutaminase ; GLUT ; glucose transporter ; HK ; hexokinase ; 2-HG ; 2-hydroxyglutarate ; HIF1α ; hypoxia inducible factor 1α ; IDH ; isocitrate dehydrogenase ; miR/miRNA ; LDH ; lactate dehydrogenase micro RNA ; p53 ; tumor
• 刊名：Computational and Structural Biotechnology Journal
• 出版年：2016
• 出版时间：2016
• 年：2016
• 卷：14
• 期：Complete
• 页码：223-233
• 全文大小：1230 K
• 卷排序：14

文摘

Altered cellular metabolism is a fundamental adaptation of cancer during rapid proliferation as a result of growth factor overstimulation. We review different pathways involving metabolic alterations in cancers including aerobic glycolysis, pentose phosphate pathway, de novo fatty acid synthesis, and serine and glycine metabolism. Although oncoproteins, c-MYC, HIF1α and p53 are the major drivers of this metabolic reprogramming, post-transcriptional regulation by microRNAs (miR) also plays an important role in finely adjusting the requirement of the key metabolic enzymes underlying this metabolic reprogramming. We also combine the literature data on the miRNAs that potentially regulate 40 metabolic enzymes responsible for metabolic reprogramming in cancers, with additional miRs from computational prediction. Our analyses show that: (1) a metabolic enzyme is frequently regulated by multiple miRs, (2) confidence scores from prediction algorithms might be useful to help narrow down functional miR-mRNA interaction, which might be worth further experimental validation. By combining known and predicted interactions of oncogenic transcription factors (TFs) (c-MYC, HIF1α and p53), sterol regulatory element binding protein 1 (SREBP1), 40 metabolic enzymes, and regulatory miRs we have established one of the first reference maps for miRs and oncogenic TFs that regulate metabolic reprogramming in cancers. The combined network shows that glycolytic enzymes are linked to miRs via p53, c-MYC, HIF1α, whereas the genes in serine, glycine and one carbon metabolism are regulated via the c-MYC, as well as other regulatory organization that cannot be observed by investigating individual miRs, TFs, and target genes.