Biology – cancer metabolic phenotype
作者: Miroslava Čuperlović-Culf
关键词: Metabolic phenotype 、 Metabolic pathway 、 Cancer 、 Bioinformatics 、 Malignant transformation 、 Cancer cell 、 Warburg effect 、 Cell biology 、 Carcinogenesis 、 Programmed cell death 、 Biology
摘要: Metabolic changes are one of the crucial hallmarks cancer. An altered metabolism helps cancer cells sustain high proliferative rates and resist cell death signals. A cell’s unstoppable growth its effect on immediate micro-environment may influence later in metabolism. However, an initial transformation must occur prior to significant tumor growth, as this actually provides conditions for tumorigenesis. Currently, several hypotheses being explored effort understand triggers malignant transformation, avenues consequences. This chapter detailed consideration current understanding metabolic phenotype development significance. The specific major oncogenes onco-suppressors cancers is presented. In addition, a description pathways provided. Finally, overview drugs that have been developed many different targets significance included.
elsevier.com
sci-hub.se 参考文章(240)
Chi V. Dang, Rethinking the Warburg Effect with Myc Micromanaging Glutamine Metabolism Cancer Research. ,vol. 70, pp. 859- 862 ,(2010) , 10.1158/0008-5472.CAN-09-3556
O. Warburg, On the origin of cancer cells. Science. ,vol. 123, pp. 309- 314 ,(1956) , 10.1126/SCIENCE.123.3191.309
B. L. Schneider, Destructive cycles: the role of genomic instability and adaptation in carcinogenesis Carcinogenesis. ,vol. 25, pp. 2033- 2044 ,(2004) , 10.1093/CARCIN/BGH204
Jacqueline F Bromberg, Melissa H Wrzeszczynska, Geeta Devgan, Yanxiang Zhao, Richard G Pestell, Chris Albanese, James E Darnell, Stat3 as an Oncogene Cell. ,vol. 98, pp. 295- 303 ,(1999) , 10.1016/S0092-8674(00)81959-5
Ping Gao, Irina Tchernyshyov, Tsung-Cheng Chang, Yun-Sil Lee, Kayoko Kita, Takafumi Ochi, Karen I. Zeller, Angelo M. De Marzo, Jennifer E. Van Eyk, Joshua T. Mendell, Chi V. Dang, c-Myc suppression of miR-23a/b enhances mitochondrial glutaminase expression and glutamine metabolism. Nature. ,vol. 458, pp. 762- 765 ,(2009) , 10.1038/NATURE07823
Andrea Pession, First-line treatment of acute lymphoblastic leukemia with pegasparaginase Biologics: Targets & Therapy. ,vol. 3, pp. 359- 368 ,(2009) , 10.2147/BTT.S3295
Weibo Luo, Hongxia Hu, Ryan Chang, Jun Zhong, Matthew Knabel, Robert O'Meally, Robert N Cole, Akhilesh Pandey, Gregg L Semenza, None, Pyruvate Kinase M2 Is a PHD3-Stimulated Coactivator for Hypoxia-Inducible Factor 1 Cell. ,vol. 145, pp. 732- 744 ,(2011) , 10.1016/J.CELL.2011.03.054
Claudia Kent, Regulatory enzymes of phosphatidylcholine biosynthesis: a personal perspective. Biochimica et Biophysica Acta. ,vol. 1733, pp. 53- 66 ,(2005) , 10.1016/J.BBALIP.2004.12.008
S. J. Yeung, J. Pan, M.-H. Lee, Roles of p53, Myc and HIF-1 in Regulating Glycolysis — the Seventh Hallmark of Cancer Cellular and Molecular Life Sciences. ,vol. 65, pp. 3981- 3999 ,(2008) , 10.1007/S00018-008-8224-X
Michelangelo Fiorentino, Giorgia Zadra, Emanuele Palescandolo, Giuseppe Fedele, Dyane Bailey, Christopher Fiore, Paul L Nguyen, Toshiro Migita, Raffaella Zamponi, Dolores Di Vizio, Carmen Priolo, Chandan Sharma, Wanling Xie, Martin E Hemler, Lorelei Mucci, Edward Giovannucci, Stephen Finn, Massimo Loda, None, Overexpression of fatty acid synthase is associated with palmitoylation of Wnt1 and cytoplasmic stabilization of β -catenin in prostate cancer Laboratory Investigation. ,vol. 88, pp. 1340- 1348 ,(2008) , 10.1038/LABINVEST.2008.97