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Metabolic Diversity in Human Non-Small Cell Lung Cancer Cells.

Molecular cell (2019-10-01)
Pei-Hsuan Chen, Ling Cai, Kenneth Huffman, Chendong Yang, Jiyeon Kim, Brandon Faubert, Lindsey Boroughs, Bookyung Ko, Jessica Sudderth, Elizabeth A McMillan, Luc Girard, Dong Chen, Michael Peyton, Misty D Shields, Bo Yao, David S Shames, Hyun Seok Kim, Brenda Timmons, Ikuo Sekine, Rebecca Britt, Stephanie Weber, Lauren A Byers, John V Heymach, Jing Chen, Michael A White, John D Minna, Guanghua Xiao, Ralph J DeBerardinis
ABSTRACT

Intermediary metabolism in cancer cells is regulated by diverse cell-autonomous processes, including signal transduction and gene expression patterns, arising from specific oncogenotypes and cell lineages. Although it is well established that metabolic reprogramming is a hallmark of cancer, we lack a full view of the diversity of metabolic programs in cancer cells and an unbiased assessment of the associations between metabolic pathway preferences and other cell-autonomous processes. Here, we quantified metabolic features, mostly from the 13C enrichment of molecules from central carbon metabolism, in over 80 non-small cell lung cancer (NSCLC) cell lines cultured under identical conditions. Because these cell lines were extensively annotated for oncogenotype, gene expression, protein expression, and therapeutic sensitivity, the resulting database enables the user to uncover new relationships between metabolism and these orthogonal processes.

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Sigma-Aldrich
Sodium 2-oxobutyrate, powder