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KRAS Inhibition with Sotorasib in Advanced Solid Tumors.索托拉西布治疗晚期实体瘤的 KRAS 抑制作用。
N Engl J Med. 2020 Sep 24;383(13):1207-1217. doi: 10.1056/NEJMoa1917239. Epub 2020 Sep 20.
2
Targeting Human Lung Adenocarcinoma with a Suppressor of Mitochondrial Superoxide Production.靶向生成线粒体超氧物的抑制剂抑制人肺腺癌细胞。
Antioxid Redox Signal. 2020 Nov 1;33(13):883-902. doi: 10.1089/ars.2019.7892. Epub 2020 Jun 29.
3
Mechanical regulation of glycolysis via cytoskeleton architecture.通过细胞骨架结构对糖酵解的机械调节。
Nature. 2020 Feb;578(7796):621-626. doi: 10.1038/s41586-020-1998-1. Epub 2020 Feb 12.
4
Respiratory supercomplexes act as a platform for complex III-mediated maturation of human mitochondrial complexes I and IV.呼吸超复合体作为人类线粒体复合体I和复合体IV由复合体III介导成熟过程的平台。
EMBO J. 2020 Feb 3;39(3):e102817. doi: 10.15252/embj.2019102817. Epub 2020 Jan 8.
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Metabolic Diversity in Human Non-Small Cell Lung Cancer Cells.人类非小细胞肺癌细胞中的代谢多样性。
Mol Cell. 2019 Dec 5;76(5):838-851.e5. doi: 10.1016/j.molcel.2019.08.028. Epub 2019 Sep 26.
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Nuclear control of lung cancer cells migration, invasion and bioenergetics by eukaryotic translation initiation factor 3F.真核翻译起始因子 3F 对肺癌细胞迁移、侵袭和生物能量学的核控制
Oncogene. 2020 Jan;39(3):617-636. doi: 10.1038/s41388-019-1009-x. Epub 2019 Sep 16.
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Cancer Cell. 2019 Jul 8;36(1):84-99.e8. doi: 10.1016/j.ccell.2019.06.003.
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Mitochondrial fatty acid oxidation and the electron transport chain comprise a multifunctional mitochondrial protein complex.线粒体脂肪酸氧化和电子传递链组成了多功能的线粒体蛋白复合物。
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Five-Year Overall Survival for Patients With Advanced Non‒Small-Cell Lung Cancer Treated With Pembrolizumab: Results From the Phase I KEYNOTE-001 Study.帕博利珠单抗治疗晚期非小细胞肺癌患者的 5 年总生存结果:来自 I 期 KEYNOTE-001 研究的结果。
J Clin Oncol. 2019 Oct 1;37(28):2518-2527. doi: 10.1200/JCO.19.00934. Epub 2019 Jun 2.
10
Metabolic reprogramming toward oxidative phosphorylation identifies a therapeutic target for mantle cell lymphoma.向氧化磷酸化代谢重编程鉴定出治疗套细胞淋巴瘤的一个治疗靶点。
Sci Transl Med. 2019 May 8;11(491). doi: 10.1126/scitranslmed.aau1167.

靶向线粒体三功能蛋白抑制氧化肺腺癌的肿瘤生长。

Targeting the mitochondrial trifunctional protein restrains tumor growth in oxidative lung carcinomas.

机构信息

CELLOMET, Bordeaux, France.

INSERM U1211, Bordeaux, France.

出版信息

J Clin Invest. 2021 Jan 4;131(1). doi: 10.1172/JCI133081.

DOI:10.1172/JCI133081
PMID:33393495
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7773363/
Abstract

Metabolic reprogramming is a common hallmark of cancer, but a large variability in tumor bioenergetics exists between patients. Using high-resolution respirometry on fresh biopsies of human lung adenocarcinoma, we identified 2 subgroups reflected in the histologically normal, paired, cancer-adjacent tissue: high (OX+) mitochondrial respiration and low (OX-) mitochondrial respiration. The OX+ tumors poorly incorporated [18F]fluorodeoxy-glucose and showed increased expression of the mitochondrial trifunctional fatty acid oxidation enzyme (MTP; HADHA) compared with the paired adjacent tissue. Genetic inhibition of MTP altered OX+ tumor growth in vivo. Trimetazidine, an approved drug inhibitor of MTP used in cardiology, also reduced tumor growth and induced disruption of the physical interaction between the MTP and respiratory chain complex I, leading to a cellular redox and energy crisis. MTP expression in tumors was assessed using histology scoring methods and varied in negative correlation with [18F]fluorodeoxy-glucose incorporation. These findings provide proof-of-concept data for preclinical, precision, bioenergetic medicine in oxidative lung carcinomas.

摘要

代谢重编程是癌症的一个共同标志,但肿瘤生物能量在患者之间存在很大的可变性。我们使用新鲜的人肺腺癌活检标本进行高分辨率呼吸测量,在组织学上正常的配对癌旁组织中鉴定出 2 个亚群:高(OX+)线粒体呼吸和低(OX-)线粒体呼吸。与配对的癌旁组织相比,OX+肿瘤对 [18F]氟脱氧葡萄糖的摄取能力较差,并且表达增加了线粒体三功能脂肪酸氧化酶(MTP;HADHA)。与 OX+肿瘤相比,MTP 的遗传抑制在体内改变了 OX+肿瘤的生长。三甲氧苄嗪,一种在心脏病学中被批准用于抑制 MTP 的药物,也能抑制肿瘤生长,并诱导 MTP 与呼吸链复合物 I 之间的物理相互作用的破坏,导致细胞氧化还原和能量危机。使用组织学评分方法评估肿瘤中的 MTP 表达,与 [18F]氟脱氧葡萄糖的摄取呈负相关。这些发现为氧化肺腺癌的临床前、精准、生物能量医学提供了概念验证数据。