Potential Role of Nrf2, HER2, and ALDH in Cancer Stem Cells: A Narrative Review.

IF 2.3 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Membrane Biology Pub Date : 2024-04-01 Epub Date: 2024-02-14 DOI:10.1007/s00232-024-00307-2
Azadeh Fakhrioliaei, Sepideh Tanhaei, SeyedAbbas Pakmehr, Maha Noori Shakir, Maytham T Qasim, Maryam Hariri, Alireza Nouhi Kararoudi, Mohammad Valilo
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Abstract

Cancer is one of the main causes of death among humans, second only to cardiovascular diseases. In recent years, numerous studies have been conducted on the pathophysiology of cancer, and it has been established that this disease is developed by a group of stem cells known as cancer stem cells (CSCs). Thus, cancer is considered a stem cell disease; however, there is no comprehensive consensus about the characteristics of these cells. Several different signaling pathways including Notch, Hedgehog, transforming growth factor-β (TGF-β), and WNT/β-catenin pathways cause the self-renewal of CSCs. CSCs change their metabolic pathways in order to access easy energy. Therefore, one of the key objectives of researchers in cancer treatment is to destroy CSCs. Nuclear factor erythroid 2-related factor 2 (Nrf2) plays an essential role in the protection of CSCs from reactive oxygen species (ROS) and chemotherapeutic agents by regulating antioxidants and detoxification enzymes. Human epidermal growth factor receptor 2 (HER2) is a member of the tyrosine kinase receptor family, which contributes to the protection of cancer cells against treatment and implicated in the invasion, epithelial-mesenchymal transition (EMT), and tumorigenesis. Aldehyde dehydrogenases (ALDHs) are highly active in CSCs and protect the cells against damage caused by active aldehydes through the regulation of aldehyde metabolism. On the other hand, ALDHs promote the formation and maintenance of tumor cells and lead to drug resistance in tumors through the activation of various signaling pathways, such as the ALDH1A1/HIF-1α/VEGF axis and Wnt/β-catenin, as well as changing the intracellular pH value. Given the growing body of information in this field, in the present narrative review, we attempted to shed light on the function of Nrf2, HER2, and ALDH in CSCs.

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Nrf2、HER2 和 ALDH 在癌症干细胞中的潜在作用:叙述性综述。
癌症是导致人类死亡的主要原因之一,仅次于心血管疾病。近年来,人们对癌症的病理生理学进行了大量研究,并确定这种疾病是由一组被称为癌症干细胞(CSCs)的干细胞发展而来的。因此,癌症被认为是一种干细胞疾病;然而,关于这些细胞的特征还没有达成全面共识。包括Notch、刺猬蛋白、转化生长因子-β(TGF-β)和WNT/β-catenin通路在内的几种不同信号通路导致了CSCs的自我更新。CSCs会改变其代谢途径,以获取更多能量。因此,研究人员治疗癌症的关键目标之一就是消灭 CSCs。核因子红细胞2相关因子2(Nrf2)通过调节抗氧化剂和解毒酶,在保护CSCs免受活性氧(ROS)和化疗药物侵害方面发挥着重要作用。人类表皮生长因子受体 2(HER2)是酪氨酸激酶受体家族的成员,它有助于保护癌细胞免受治疗,并与侵袭、上皮-间质转化(EMT)和肿瘤发生有关。醛脱氢酶(ALDHs)在癌细胞干细胞中高度活跃,通过调节醛代谢保护细胞免受活性醛的损伤。另一方面,ALDHs 通过激活各种信号通路,如 ALDH1A1/HIF-1α/VEGF 轴和 Wnt/β-catenin 以及改变细胞内 pH 值,促进肿瘤细胞的形成和维持,并导致肿瘤耐药。鉴于这一领域的信息越来越多,我们在本综述中试图阐明 Nrf2、HER2 和 ALDH 在 CSCs 中的功能。
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来源期刊
Journal of Membrane Biology
Journal of Membrane Biology 生物-生化与分子生物学
CiteScore
4.80
自引率
4.20%
发文量
63
审稿时长
6-12 weeks
期刊介绍: The Journal of Membrane Biology is dedicated to publishing high-quality science related to membrane biology, biochemistry and biophysics. In particular, we welcome work that uses modern experimental or computational methods including but not limited to those with microscopy, diffraction, NMR, computer simulations, or biochemistry aimed at membrane associated or membrane embedded proteins or model membrane systems. These methods might be applied to study topics like membrane protein structure and function, membrane mediated or controlled signaling mechanisms, cell-cell communication via gap junctions, the behavior of proteins and lipids based on monolayer or bilayer systems, or genetic and regulatory mechanisms controlling membrane function. Research articles, short communications and reviews are all welcome. We also encourage authors to consider publishing ''negative'' results where experiments or simulations were well performed, but resulted in unusual or unexpected outcomes without obvious explanations. While we welcome connections to clinical studies, submissions that are primarily clinical in nature or that fail to make connections to the basic science issues of membrane structure, chemistry and function, are not appropriate for the journal. In a similar way, studies that are primarily descriptive and narratives of assays in a clinical or population study are best published in other journals. If you are not certain, it is entirely appropriate to write to us to inquire if your study is a good fit for the journal.
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