Abstract 3969: Screening of kinase inhibitors as bioenergetic metabolism modulator using the XF Real-Time ATP Rate Assay

Abstract

Abstract Cancer cells are metabolically reprogrammed through tumor initiation and progression, and there are increasing developments in cancer therapies exploiting the potential metabolic vulnerability. A better understanding of cancer cell metabolic regulation can also contribute to modulating the harsh tumor microenvironment, which strongly affects the efficacy of emerging anti-cancer immunotherapies. As one of the critical contributors to cancer therapy design, there is increasing demand for time-efficient and reliable analytic tools when searching for drugs and genes modulating cancer cell metabolism. The XF Real-Time ATP Rate Assay measures ATP production from glycolysis and mitochondrial respiration simultaneously and provides a quantitative overview of the bioenergetic phenotype of the cells. By using ATP production rate as a universal unit of bioenergetic metabolism, this assay quickly detects metabolic modulations induced by chemical stimuli or genetic modifications. It allows the identification of potential targets for therapy design. In this study, we used the Seahorse XF Pro Analyzer combined with the XF ATP Rate assay to screen 80 kinase inhibitors for the suppressive effects on energy metabolism and/or inducing a metabolic phenotype shift in THP-1 cells, a monocytic leukemia cell line, using PBMC as the control. We identified four mitochondrial and two glycolytic suppressors using the screening and dose-response views available in Seahorse Analytics, a cloud-based data analysis tool for Seahorse XF assays. These compounds showed moderate or no effects on the net ATP production rates but induced a significant shift in the metabolic phenotype of THP-1 cells. Among the selected kinase inhibitors, AG-879 (ErbB2 inhibitor), SU-1498 (VEGFR inhibitor), and U-0126 (MEK1/2 inhibitor) showed the most potent inhibitory effect on mitochondrial energy production in THP-1 cells. Dose-response studies indicated that SU-1498 and U-0126 have higher potency in THP-1 than PBMC, and thus they can be considered good cancer-cell targets for mitochondrial suppressors. In contrast, AG-879 showed a similar or higher inhibitory effect on PBMC even though it is the most potent mitochondrial suppressor among the selected compounds. These results demonstrate that the XF Real-Time ATP Rate Assay can be used as a primary assay for screening and validating drug candidate(s) targeting the bioenergetic metabolism of cancer cells. Citation Format: Yoonseok Kam, Lisa Winer, Natalia Romero. Screening of kinase inhibitors as bioenergetic metabolism modulator using the XF Real-Time ATP Rate Assay. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 3969.