Abstract
Abstract It is generally accepted that alterations in metabolism are critical for the metastatic process; however, the mechanisms by which the metabolic changes are controlled by the major drivers of the metastatic process remain elusive. Here, we find that S100A4, a major metastasis-promoting protein, alters metabolic plasticity to drive tumor invasion and metastasis. Investigating how S100A4 regulates metabolism, we find that depletion of S100A4 decreases oxygen consumption rate, mitochondrial activity, and ATP production, and shifts cell metabolism to be more glycolytically active. We further identify that the 49 KD mitochondrial complex I subunit NADH dehydrogenase (ubiquinone) Fe-S protein 2 (NDUFS2) is regulated in an S100A4-dependent manner and that S100A4 and NDUFS2 exhibit co-occurrence at significant levels in various cancer types (cBioPortal). Importantly, we find that knockdown of NDUFS2 inhibits mitochondrial complex I activity, reduces cellular ATP level, and decreases the invasive capacity in three-dimensional (3D) growth, thus mimicking the biological effect resulting from S100A4 knockdown in A549 cells. Likewise, silencing S100A4 and NDUFS2 dramatically decreases the rate of metastasis as well as tumor growth in vivo. Finally, we provide evidence that cells with S100A4 and NDUFS2 depletion shift metabolism toward glycolysis through upregulating hexokinases expression and that suppressing S100A4 signaling sensitizes lung cancer cells to glycolysis inhibition. Together, our findings uncover a novel function of S100A4 in mitochondrial metabolism and highlight the importance of NDUFS2 in regulating the plasticity of mitochondrial metabolism by S100A4 to promote the invasion and metastasis in lung cancer. Citation Format: Lili Liu, Lei Qi, Teresa Knifley, Dava W. Piecoro, Piotr Rychahou, Jinpeng Liu, Mihail I. Mitov, Jeremiah Martin, Chi Wang, Jianrong Wu, Heidi L. Weiss, D. Allan Butterfield, B. Mark Evers, Kathleen L. O'Connor, Min Chen. S100A4 alters mitochondrial metabolism to promote invasion and metastasis of non-small cell lung cancer cells through upregulation of NDUFS2 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 1119.
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