Reprogramming Of Serine Metabolism During Breast Cancer Progression

The causes and consequences of metabolic reprogramming during human breast cancer metastasis remain largely unknown. We performed metabolomics in the human triple-negative breast cancer cell line MDA-MB-231 (231-Parental) and its metastatic subclones that display tissue-tropism towards the brain (831-BrM), the bone (1833-BoM), and the lung (4175-LM). Using molecular and metabolic flux analysis, we uncovered that the mitochondrial serine and one-carbon (1C) unit pathway is upregulated in the metastatic subclones. Inhibition of the first rate-limiting enzyme of the pathway, serine hydroxymethyltransferase (SHMT2), potently suppresses proliferation of metastatic subclones in culture and impairs growth of lung metastatic subclones at both primary and metastatic sites in mice. In addition to breast cancer, a few other cancer types, such as adrenocortical carcinoma (ACC) and kidney chromophobe cell carcinoma (KICH), also display increased SHMT2 expression during disease progression. Moreover, we found that metastatic cells are exquisitely adapted to low serine conditions by synthesizing serine de novo from glucose to generate 1C units, and blocking serine catabolism abrogates metastatic growth under serine deprivation. How do metastatic breast cancer cells acquire new metabolic properties such as de novo serine synthesis? We observed that 231-Parental cells grown in media lacking serine for up to ten passages exhibited metastatic cell-like metabolic properties. Subsequent RNA-sequencing revealed dramatic global gene expression changes during serine starvation in more primary tumor-like cells. Several pathways involved in metastasis such as TNFα signaling, mTOR1 signaling, and Ras signaling were modulated upon serine starvation. These data suggest that the availability of the nonessential amino acid serine may play a key regulatory role in breast cancer progression and metastasis, and highlight the potential for metabolite supplementation to block or halt these transformations. Citation Format: Albert Mao Li, Gregory S. Ducker, Yang Li, Jose A. Seoane, Yiren Xiao, Stavros Melemenidis, Yiren Zhou, Ling Liu, Sakari Vanharanta, Edward E. Graves, Erinn B. Rankin, Christina Curtis, Joan Massague, Joshua D. Rabinowitz, Craig B. Thompson, Jiangbin Ye. Reprogramming of serine metabolism during breast cancer progression [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 5713.