Imatinib therapy of chronic myeloid leukemia significantly reduces carnitine cell intake, resulting in adverse events

IF 7 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM Molecular Metabolism Pub Date : 2024-08-23 DOI:10.1016/j.molmet.2024.102016
Pavel Burda , Alzbeta Hlavackova , Vendula Polivkova , Nikola Curik , Adam Laznicka , Jitka Krizkova , Jiri Suttnar , Pavel Klener , Katerina Machova Polakova
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Abstract

Objective

A prominent, safe and efficient therapy for patients with chronic myeloid leukemia (CML) is inhibiting oncogenic protein BCR::ABL1 in a targeted manner with imatinib, a tyrosine kinase inhibitor. A substantial part of patients treated with imatinib report skeletomuscular adverse events affecting their quality of life. OCTN2 membrane transporter is involved in imatinib transportation into the cells. At the same time, the crucial physiological role of OCTN2 is cellular uptake of carnitine which is an essential co-factor for the mitochondrial β-oxidation pathway. This work investigates the impact of imatinib treatment on carnitine intake and energy metabolism of muscle cells.

Methods

HTB-153 (human rhabdomyosarcoma) cell line and KCL-22 (CML cell line) were used to study the impact of imatinib treatment on intracellular levels of carnitine and vice versa. The energy metabolism changes in cells treated by imatinib were quantified and compared to changes in cells exposed to highly specific OCTN2 inhibitor vinorelbine. Mouse models were used to test whether in vitro observations are also achieved in vivo in thigh muscle tissue. The analytes of interest were quantified using a Prominence HPLC system coupled with a tandem mass spectrometer.

Results

This work showed that through the carnitine-specific transporter OCTN2, imatinib and carnitine intake competed unequally and intracellular carnitine concentrations were significantly reduced. In contrast, carnitine preincubation did not influence imatinib cell intake or interfere with leukemia cell targeting. Blocking the intracellular supply of carnitine with imatinib significantly reduced the production of most Krebs cycle metabolites and ATP. However, subsequent carnitine supplementation rescued mitochondrial energy production. Due to specific inhibition of OCTN2 activity, the influx of carnitine was blocked and mitochondrial energy metabolism was impaired in muscle cells in vitro and in thigh muscle tissue in a mouse model.

Conclusions

This preclinical experimental study revealed detrimental effect of imatinib on carnitine-mediated energy metabolism of muscle cells providing a possible molecular background of the frequently occurred side effects during imatinib therapy such as fatigue, muscle pain and cramps.

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伊马替尼治疗慢性粒细胞白血病会显著减少肉碱细胞的摄入量,从而导致不良反应。
目的:酪氨酸激酶抑制剂伊马替尼(imatinib)以靶向方式抑制致癌蛋白 BCR::ABL1,是治疗慢性髓性白血病(CML)患者的一种显著、安全和高效的疗法。相当一部分接受伊马替尼治疗的患者报告了影响其生活质量的骨骼肌肉不良事件。OCTN2 膜转运体参与了伊马替尼向细胞内的转运。同时,OCTN2 的关键生理作用是细胞摄取肉碱,而肉碱是线粒体 β 氧化途径的重要辅助因子。方法:使用 HTB-153(人横纹肌肉瘤)细胞系和 KCL-22(CML 细胞系)研究伊马替尼治疗对细胞内肉碱水平的影响,反之亦然。对伊马替尼处理的细胞的能量代谢变化进行了量化,并与暴露于高度特异性 OCTN2 抑制剂长春瑞滨的细胞的变化进行了比较。使用小鼠模型测试体外观察结果是否也能在大腿肌肉组织体内实现。相关分析物的定量采用了与串联质谱仪相结合的 Prominence HPLC 系统:这项研究表明,通过肉碱特异性转运体 OCTN2,伊马替尼和肉碱的摄入量竞争不均,细胞内肉碱浓度显著降低。相反,肉碱预孵育不会影响伊马替尼细胞的摄入量,也不会干扰白血病细胞的靶向性。用伊马替尼阻断细胞内左旋肉碱的供应会显著减少大多数克雷布斯循环代谢产物和 ATP 的产生。不过,随后补充的肉碱能挽救线粒体能量的产生。由于特异性抑制了 OCTN2 的活性,肉碱流入受阻,体外肌肉细胞和小鼠模型大腿肌肉组织的线粒体能量代谢受损:这项临床前实验研究揭示了伊马替尼对肉碱介导的肌肉细胞能量代谢的有害影响,为伊马替尼治疗期间经常出现的副作用(如疲劳、肌肉疼痛和痉挛)提供了可能的分子背景。
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来源期刊
Molecular Metabolism
Molecular Metabolism ENDOCRINOLOGY & METABOLISM-
CiteScore
14.50
自引率
2.50%
发文量
219
审稿时长
43 days
期刊介绍: Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.
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