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Blockade LAT1 Mediates Methionine Metabolism to Overcome Oxaliplatin Resistance under Hypoxia in Renal Cell Carcinoma

Qingwen Xu, Yuxi Liu, Wen Sun, Tiantian Song, Xintong Jiang, Kui Zeng, Su Zeng, Lu Chen, Lushan Yu

2022Cancers11 citationsDOIOpen Access PDF

Abstract

Hypoxic microenvironment and metabolic dysregulation of tumor impairs the therapeutic efficacy of chemotherapeutic drugs, resulting in drug resistance and tumor metastasis, which has always been a challenge for the treatment of solid tumors, including renal cell carcinoma (RCC). Herein, starting from the evaluation of methionine metabolism in RCC cells, we demonstrated that the increased methionine accumulation in RCC cells was mediated by L-type amino acid transporter 1 (LAT1) under hypoxia. Glutathione (GSH), as a methionine metabolite, would attenuate the therapeutic efficacy of oxaliplatin through chemical chelation. Reducing methionine uptake by LAT1 inhibitor JPH203 significantly enhanced the sensitivity of RCC cells to oxaliplatin by reducing GSH production in vitro and in vivo. Therefore, we proposed an effective and stable therapeutic strategy based on the combination of oxaliplatin and LAT1 inhibitor, which is expected to solve the resistance of RCC to platinum-based drugs under hypoxia to a certain extent, providing a meaningful insight into the development of new therapeutic strategies and RCC treatment.

Topics & Concepts

BlockadeHypoxia (environmental)OxaliplatinMethionineCancer researchRenal cell carcinomaMetabolismChemistryMedicineInternal medicineBiochemistryReceptorCancerColorectal cancerOxygenAmino acidOrganic chemistryCancer, Hypoxia, and MetabolismEpigenetics and DNA MethylationCancer Research and Treatments
Blockade LAT1 Mediates Methionine Metabolism to Overcome Oxaliplatin Resistance under Hypoxia in Renal Cell Carcinoma | Litcius