Zhao Xiaoyue, Zhang Miao, He Jing, Li Xin, Zhuang Xuewei
Second Clinical Medical College, Shandong University of Traditional Chinese Medicine, Jinan, Shandong 250002, P.R. China.
Clinical Laboratory, Shandong Provincial Third Hospital, Shandong University, Jinan, Shandong 250002, P.R. China.
Oncol Lett. 2024 Oct 14;28(6):606. doi: 10.3892/ol.2024.14739. eCollection 2024 Dec.
Cholangiocarcinoma (CCA) is a malignant tumor that arises within the biliary system, which exhibits a progressively increasing incidence and a poor patient prognosis. A thorough understanding of the molecular pathogenesis that drives the progression of CCA is essential for the development of effective molecular target therapeutic approaches. Ferroptosis is driven by excessive iron accumulation and catalysis, lipid peroxidation and the failure of antioxidant defense systems. Key molecular targets of iron metabolism, lipid metabolism and antioxidant defense systems involve molecules such as transferrin receptor, ACSL4 and GPX4, respectively. Inhibitors of ferroptosis include ferrostatin-1, liproxstatin-1, vitamin E and coenzyme Q10. By contrast, compounds such as erastin, RSL3 and FIN56 have been identified as inducers of ferroptosis. Ferroptosis serves a notable role in the onset and progression of CCA. CCA cells exhibit high sensitivity to ferroptosis and aberrant iron metabolism in these cells increases oxidative stress and iron accumulation. The induction of ferroptosis markedly reduces the ability of CCA cells to proliferate and migrate. Certain ferroptosis agonists, such as RSL3 and erastin, cause lipid peroxide build up and GPX4 inhibition to induce ferroptosis in CCA cells. Current serological markers, such as CA-199, have low specificity and cause difficulties in the diagnosis of CCA. However, novel techniques, such as non-invasive liquid biopsy and assays for oxidative stress markers and double-cortin-like kinase 1, could improve diagnostic accuracy. CCA is primarily treated with surgery and chemotherapy. A close association between the progression of CCA with ferroptosis mechanisms and related regulatory pathways has been demonstrated. Therefore, it could be suggested that multi-targeted therapeutic approaches, such as ferroptosis inducers, iron chelating agents and novel modulators such as YL-939, may improve treatment efficacy. Iron death-related genes, such as GPX4, that are highly expressed in CCA and are associated with a poor prognosis for patients may represent potential prognostic markers for CCA. The present review focused on molecular targets such as p53 and ACSL4, the process of targeted medications in combination with PDT in CCA and the pathways of lipid peroxidation, the Xcsystem and GSH-GPX4 in ferroptosis. The present review thus offered novel perspectives to improve the current understanding of CCA.
胆管癌(CCA)是一种起源于胆道系统的恶性肿瘤,其发病率呈逐渐上升趋势,患者预后较差。深入了解驱动CCA进展的分子发病机制对于开发有效的分子靶向治疗方法至关重要。铁死亡由过量的铁积累和催化、脂质过氧化以及抗氧化防御系统的失效所驱动。铁代谢、脂质代谢和抗氧化防御系统的关键分子靶点分别涉及转铁蛋白受体、ACSL4和GPX4等分子。铁死亡抑制剂包括铁抑素-1、脂氧素他汀-1、维生素E和辅酶Q10。相比之下,诸如艾拉司丁、RSL3和FIN56等化合物已被确定为铁死亡诱导剂。铁死亡在CCA的发生和进展中起着显著作用。CCA细胞对铁死亡表现出高度敏感性,这些细胞中异常的铁代谢会增加氧化应激和铁积累。诱导铁死亡显著降低CCA细胞的增殖和迁移能力。某些铁死亡激动剂,如RSL3和艾拉司丁,会导致脂质过氧化物积累并抑制GPX4,从而在CCA细胞中诱导铁死亡。目前的血清学标志物,如CA-199,特异性较低,给CCA的诊断带来困难。然而,诸如非侵入性液体活检以及氧化应激标志物和双皮质素样激酶1检测等新技术可能会提高诊断准确性。CCA主要通过手术和化疗进行治疗。已经证明CCA的进展与铁死亡机制及相关调节途径之间存在密切关联。因此,可以认为多靶点治疗方法,如铁死亡诱导剂、铁螯合剂和新型调节剂如YL-939,可能会提高治疗效果。在CCA中高表达且与患者预后不良相关的铁死亡相关基因,如GPX4,可能代表CCA潜在的预后标志物。本综述聚焦于p53和ACSL4等分子靶点、CCA中靶向药物与光动力疗法联合应用的过程以及铁死亡中脂质过氧化、Xc系统和谷胱甘肽-GPX4的途径。因此,本综述为增进当前对CCA的理解提供了新的视角。
