HIF-1α 抑制剂联合棕榈酸和左旋肉碱处理可防止肝细胞癌细胞在缺氧条件下的脂肪代谢重编程并诱导其凋亡

IF 6 3区 医学 Q1 CELL BIOLOGY
Shohei Matsufuji, Yoshihiko Kitajima, Kazuki Higure, Naoya Kimura, Sachiko Maeda, Kohei Yamada, Kotaro Ito, Tomokazu Tanaka, Keita Kai, Hirokazu Noshiro
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引用次数: 0

摘要

包括肝细胞癌(HCC)在内的实体瘤内往往持续存在低氧环境。缺氧诱导因子-1α(HIF-1α)可诱导多种基因的缺氧依赖性表达,从而加速癌症恶变。肿瘤缺氧还能诱导脂肪酸(FA)代谢重编程,HIF-1α在缺氧癌细胞的脂肪酸β-氧化(FAO)过程中发挥着重要作用。我们旨在研究针对 HCC 肿瘤中缺氧癌细胞的潜在新药物治疗方案,特别是通过将 HIF-1α 抑制与棕榈酸(PA)+左旋肉碱(LC)治疗相结合,有效诱导缺氧 HCC 细胞凋亡。为了验证这一假设,我们进行了体外和体内研究。我们首先证明,在两种 HCC 细胞系(HepG2 和 Hep3B)中,过量的 PA 可通过产生过多的活性氧(ROS)诱导缺氧依赖性细胞凋亡。此外,在缺氧条件下,这些细胞中的 HIF-1α 基因敲除(KD)会增强 PA 诱导的细胞凋亡。此外,在缺氧的 HIF-1α KD 细胞中,PA 与 FAO 激活剂 LC 的结合增加了 FAO 的活性,比单独使用 PA 更能导致细胞死亡,特别是通过进一步产生 ROS。为了阐明缺氧诱导 FA 代谢重编程的机制,研究人员使用 HIF-1α KD 细胞和干扰对照(SC)细胞分析了 FAO 酶 CPT1A、ACSL1、MCAD 和 LCAD、FA 转运体 CD36 以及 FA 酯化酶 DGAT 和 APGAT 的基因表达水平。结果表明,HIF-1α能抑制FAO相关酶和CD36的mRNA表达,而上调FA酯化基因的表达。这表明HIF-1α在缺氧诱导的HCC细胞FA代谢重编程中发挥了核心作用。通过裸鼠模型发现,与SC肿瘤相比,给予PA能诱导HIF-1α KD肿瘤因ROS过度产生而凋亡。额外的 LC 处理协同增强了 PA 诱导的 HIF-1α KD 肿瘤细胞凋亡。最后,HIF-1α抑制剂YC-1与PA+LC组成的体内疗法可诱导ROS介导的HepG2肿瘤细胞凋亡,且无明显毒性。YC-1与PA+LC的联合疗法可能是针对缺氧性HCC细胞的一种独特的抗肿瘤疗法,特别是通过ROS过量产生导致FAO被迫激活。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A HIF-1α inhibitor combined with palmitic acid and L-carnitine treatment can prevent the fat metabolic reprogramming under hypoxia and induce apoptosis in hepatocellular carcinoma cells
A hypoxic environment often persists within solid tumors, including hepatocellular carcinoma (HCC). Hypoxia-inducible factor-1α (HIF-1α) can accelerate cancer malignancy by inducing hypoxia-dependent expression of various genes. Tumor hypoxia can also induce metabolic reprogramming of fatty acid (FA) metabolism, through which HIF-1α plays an essential role in diminishing fatty acid β-oxidation (FAO) in hypoxic cancer cells. We aimed to investigate potential new drug therapy options for targeting hypoxic cancer cells within HCC tumors, specifically through combining HIF-1α inhibition with palmitic acid (PA) + L-carnitine (LC) treatment to effectively induce apoptosis in hypoxic HCC cells. To test this hypothesis, in vitro and in vivo studies were performed. We first demonstrated that hypoxia-dependent apoptosis was induced by an overload of PA in two HCC cell lines (HepG2 and Hep3B) via excessive production of reactive oxygen species (ROS). Moreover, this observed PA-induced apoptosis was enhanced by HIF-1α knockdown (KD) in these cells under hypoxia. In addition, the combination of PA with FAO activator LC increased FAO activity and led to stronger cell death than PA alone in hypoxic HIF-1α KD cells, specifically through further ROS generation. To clarify the mechanism of hypoxia-induced FA metabolism reprogramming, expression levels of the genes encoding FAO enzymes CPT1A, ACSL1, MCAD, and LCAD, FA transporter CD36, and FA esterification enzymes DGAT and APGAT were analyzed using HIF-1α KD and scramble control (SC) cells. The results suggested that HIF-1α could repress mRNA expression of the FAO-related enzymes and CD36, while it upregulated FA esterification gene expression. This suggested a central role for HIF-1α in hypoxia-induced reprogramming of FA metabolism in HCC cells. Using a nude mouse model, PA administration was found to induce apoptosis from ROS overproduction in HIF-1α KD tumors compared with SC tumors. Additional LC treatment synergistically enhanced the PA-induced apoptosis in HIF-1α KD tumors. Finally, in vivo therapy composed of HIF-1α inhibitor YC-1 with PA + LC could induce ROS-mediated apoptosis in HepG2 tumors without significant toxicity. A combination therapy of YC-1 with PA + LC may be a unique anti-tumor therapy for targeting hypoxic HCC cells, specifically by ROS overproduction leading to forced FAO activation.
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来源期刊
自引率
1.70%
发文量
17
审稿时长
14 weeks
期刊介绍: Cancer & Metabolism welcomes studies on all aspects of the relationship between cancer and metabolism, including: -Molecular biology and genetics of cancer metabolism -Whole-body metabolism, including diabetes and obesity, in relation to cancer -Metabolomics in relation to cancer; -Metabolism-based imaging -Preclinical and clinical studies of metabolism-related cancer therapies.
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