MCT1-dependent lactate recycling is a metabolic vulnerability in colorectal cancer cells upon acquired resistance to anti-EGFR targeted therapy

被引:9
作者
Richiardone, Elena [1 ]
Al Roumi, Rim [1 ]
Lardinois, Fanny [2 ]
Giolito, Maria Virginia [1 ]
Ambroise, Jerome [3 ]
Boidot, Romain [4 ]
Drotleff, Bernhard [5 ]
Ghesquiere, Bart [6 ,7 ]
Bellahcene, Akeila [2 ]
Bardelli, Alberto [8 ,9 ]
Arena, Sabrina [10 ,11 ]
Corbet, Cyril [1 ]
机构
[1] UCLouvain, Inst Rech Expt & Clin IREC, Pole Pharmacol & Therapeut FATH, Ave Hippocrate 57,B1-57-04, B-1200 Brussels, Belgium
[2] Univ Liege, Metastasis Res Lab, GIGA Canc, Liege, Belgium
[3] UCLouvain, Inst Rech Expt & Clin IREC, Ctr Technol Mol Appl CTMA, Ave Hippocrate 54, B-1200 Brussels, Belgium
[4] Georges Francois Leclerc Canc Ctr, Dept Biol & Pathol Tumors, Unit Mol Biol, UNICANCER, F-21079 Dijon, France
[5] EMBL Heidelberg, Metabol Core Facil, Heidelberg, Germany
[6] Katholieke Univ Leuven, Dept Cellular & Mol Med, Lab Appl Mass Spectrometry, Leuven, Belgium
[7] VIB, Metabol Core Facil Leuven, Ctr Canc Biol, Leuven, Belgium
[8] Univ Torino, Mol Biotechnol Ctr, Dept Oncol, Turin, Italy
[9] IFOM ETS AIRC Inst Mol Oncol, Milan, Italy
[10] Univ Torino, Dept Oncol, Candiolo, TO, Italy
[11] FPO IRCCS, Candiolo Canc Inst, Candiolo, TO, Italy
来源
CANCER LETTERS | 2024年 / 598卷
关键词
Colorectal cancer; Metabolism; Therapy resistance; KRAS; Cetuximab; Lactate; Monocarboxylate transporter; 1ST-LINE TREATMENT; CETUXIMAB; GROWTH; KRAS; FLUOROURACIL; OXALIPLATIN; LEUCOVORIN; INHIBITION; EXPRESSION; MUTATIONS;
D O I
10.1016/j.canlet.2024.217091
中图分类号
R73 [肿瘤学];
学科分类号
100214 ;
摘要
Despite the implementation of personalized medicine, patients with metastatic CRC (mCRC) still have a dismal overall survival due to the frequent occurrence of acquired resistance mechanisms thereby leading to clinical relapse. Understanding molecular mechanisms that support acquired resistance to anti-EGFR targeted therapy in mCRC is therefore clinically relevant and key to improving patient outcomes. Here, we observe distinct metabolic changes between cetuximab-resistant CRC cell populations, with in particular an increased glycolytic activity in KRAS-mutant cetuximab-resistant CRC cells (LIM1215 and OXCO2) but not in KRAS-amplified resistant DiFi cells. We show that cetuximab-resistant LIM1215 and OXCO2 cells have the capacity to recycle glycolysisderived lactate to sustain their growth capacity. This is associated with an upregulation of the lactate importer MCT1 at both transcript and protein levels. Pharmacological inhibition of MCT1, with AR-C155858, reduces the uptake and oxidation of lactate and impairs growth capacity in cetuximab-resistant LIM1215 cells both in vitro and in vivo. This study identifies MCT1-dependent lactate utilization as a clinically actionable, metabolic vulnerability to overcome KRAS-mutant-mediated acquired resistance to anti-EGFR therapy in CRC.
引用
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页数:13
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