癌症中的磷酸果糖激酶-1:有望成为诊断和治疗的靶点

Ali Raza Ishaq, Tahira Younis, Shankun Lin, Muhammad Usman, Tingfang Wang, Zhe-Sheng Chen
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引用次数: 0

摘要

在缺氧环境中,肿瘤细胞的酶系统发生扭曲,代谢状态从氧化磷酸化转变为高乳酸水平的糖酵解。新陈代谢谱的重写是癌症的一个新特征。约 70% 的恶性肿瘤都会出现糖酵解酶扩增。目前的研究发现,在各种人类癌细胞系中,PFK-1 的过表达与细胞迁移、增殖和总生存率(OS)有关。本综述旨在揭示癌症治疗的真正治疗靶点,并阐明 PFK-1 在癌症中的作用。此外,本综述还列出了 PFK-1 的药理和基因抑制剂。在本综述之后,未来有关 PFK-1 的研究应强调癌症发展过程中 PFK-1 过度表达所涉及的分子通路。我们使用了 "PFK-1"、"PFKP-1"、"PFKL-1"、"PFKM-1"、"PFKM-1 与癌症"、"PFKP-1 与癌症"、"PFKL-1 与癌症 "和 "PFK-1 抑制剂 "等术语,从 PubMed、Scopus、Google Scholar 和 ScienceDirect 等多个数据库中检索信息。据报道,在多种恶性肿瘤中,抑制 PFK-1 同工酶的表达是最有效的治疗方法。PFK-1 同工酶的过度表达会诱导沃伯格效应、细胞增殖,并通过下调活性 caspase-3、caspase-9 和 caspase-8 等凋亡蛋白而致癌。YY1、synoviolin、Sh-RNA-507、SNAI、miR-520a/b/e、miR-128 和 β-miR-6517 是一些针对 PFK-1 的假定基因抑制剂,已被用于控制恶性肿瘤的发展。药理抑制剂,如五氟利多、滑石素/HRD1、槲皮素、人参皂苷 20(S)-Rg3、三七皂苷、沃仑宁、乙酰水杨酸和水杨酸,可通过抑制 PFK-1 来调节恶性肿瘤的发展。因此,PFK-1 是一种很有前景的癌症治疗分子生物标记物。前瞻性研究可以验证发现治疗癌症的全新 PFK-1 抑制剂的无偏见方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phosphofructokinase-1 in Cancer: A Promising Target for Diagnosis and Therapy.

Tumor cells have distorted enzymatic houses, which change the metabolic state from oxidative phosphorylation to glycolysis with high lactate levels in a hypoxic environment. Redrafting the metabolic profile is an emerging hallmark of cancer. Glycolytic enzyme amplification occurs in about 70% of all malignancies. Current studies have found that PFK-1 overexpression is linked to cell migration, proliferation, and Overall Survival (OS) rate in various human cancer cell lines. This review intended to uncover the bona fide therapeutic target for cancer therapy and elucidate the role of PFK-1 in cancer. Furthermore, this review has outlined the listed pharmacological and genetic inhibitors of PFK-1. Following this review, future studies on PFK-1 should emphasize the molecular pathways implicated in PFK-1 overexpression in cancer development. The terms "PFK-1", "PFKP-1", "PFKL-1", "PFKM-1", "PFKM-1 and cancer", "PFKP-1 and cancer", "PFKL-1 and cancer", and "inhibitors of PFK-1" were used to retrieve the information from a variety of databases, including PubMed, Scopus, Google Scholar, and ScienceDirect. In a variety of malignancies, inhibiting the expression of PFK-1 isoforms has been reported to be the most effective therapeutic method. Overexpression of PFK-1 isoforms induces the Warburg effect, cell proliferation, and carcinogenesis by downregulating apoptotic proteins, such as active caspase-3, caspase-9, and caspase-8. YY1, synoviolin, Sh-RNA-507, SNAI, miR-520a/b/e, miR-128, and β-miR-6517 are some of the putative genetic inhibitors against PFK-1 that have been used to manage the development of malignancies. Pharmacological inhibitors, such as penfluridol, synoviolin/HRD1, quercetin, ginsenoside 20(S)-Rg3, triptolide, worenine, acetylsalicylic acid, and salicylic acid, can regulate the advancement of malignancies by inhibiting PFK-1. Thus, PFK-1 is a promising molecular biomarker for cancer treatment. A prospective investigation can validate the unbiased approaches for discovering brandnew PFK-1 inhibitors for cancer treatment.

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