Ingrid R S B Dias, Rafaela G A Costa, Ana Carolina B da C Rodrigues, Suellen L R Silva, Maiara de S Oliveira, Milena B P Soares, Rosane B Dias, Ludmila F Valverde, Clarissa A Gurgel Rocha, Lauren V Cairns, Ken I Mills, Daniel P Bezerra
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This compound inhibited the viability of both solid and haematological cancer cells, suppressed AML stem-like cells, and inhibited AML growth in NSG mice at a dosage of 50 mg/kg, with tolerable systemic toxicity. Bithionol significantly reduced the levels of phospho-NF-κB p65 (Ser529) and phospho-NF-κB p65 (Ser536) and nuclear NF-κB p65 translocation in AML cells, indicating that this molecule can suppress NF-κB signalling. DNA fragmentation, nuclear condensation, cell shrinkage, phosphatidylserine externalisation, loss of transmembrane mitochondrial potential, caspase-3 activation and PARP-(Asp 214) cleavage were detected in bithionol-treated AML cells, indicating the induction of apoptosis. Furthermore, this compound increased mitochondrial superoxide levels, and bithionol-induced cell death was partially prevented by cotreatment with the selective ferroptosis inhibitor ferrostatin-1, indicating the induction of ferroptosis. In addition, bithionol synergised with venetoclax in AML cells, indicating the translational potential of bithionol to enhance the effects of venetoclax in patients with AML. 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引用次数: 0
摘要
急性髓性白血病(AML)是一种致命的骨髓肿瘤,由血细胞祖细胞的基因改变引起。白血病干细胞(LSCs)是急性髓性白血病发病、耐药和复发的罪魁祸首。比硫醇是一种古老的抗蠕虫药物,具有潜在的抗菌、抗病毒、抗真菌、抗老年痴呆和抗肿瘤特性。在这项工作中,我们重点研究了比西酚的抗AML LSC特性。该化合物抑制了实体癌细胞和血液癌细胞的活力,抑制了急性髓细胞白血病干样细胞,并以 50 毫克/千克的剂量抑制了急性髓细胞白血病在 NSG 小鼠体内的生长,且具有可耐受的全身毒性。Bithionol 能明显降低 AML 细胞中磷酸-NF-κB p65(Ser529)和磷酸-NF-κB p65(Ser536)的水平以及核 NF-κB p65 转位,表明该分子能抑制 NF-κB 信号传导。在双硫仑醇处理的 AML 细胞中检测到了 DNA 断裂、核凝结、细胞萎缩、磷脂酰丝氨酸外化、跨膜线粒体电位丧失、Caspase-3 激活和 PARP-(Asp 214) 分裂,这表明该化合物诱导了细胞凋亡。此外,该化合物还增加了线粒体的超氧化物水平,而双硫醇诱导的细胞死亡在与选择性铁凋亡抑制剂铁前列素-1共处理时被部分阻止,这表明该化合物诱导了铁凋亡。此外,在急性髓细胞白血病细胞中,比硫醇与 Venetoclax 具有协同作用,这表明比硫醇具有转化潜力,可增强 Venetoclax 对急性髓细胞白血病患者的作用。总之,这些数据表明,比硫醇是一种潜在的抗 AML 新药。
Bithionol eliminates acute myeloid leukaemia stem-like cells by suppressing NF-κB signalling and inducing oxidative stress, leading to apoptosis and ferroptosis.
Acute myeloid leukaemia (AML) is a lethal bone marrow neoplasm caused by genetic alterations in blood cell progenitors. Leukaemic stem cells (LSCs) are responsible for the development of AML, drug resistance and relapse. Bithionol is an old anthelmintic drug with potential antibacterial, antiviral, antifungal, anti-Alzheimer, and antitumour properties. In this work, we focused on the anti-AML LSC properties of bithionol. This compound inhibited the viability of both solid and haematological cancer cells, suppressed AML stem-like cells, and inhibited AML growth in NSG mice at a dosage of 50 mg/kg, with tolerable systemic toxicity. Bithionol significantly reduced the levels of phospho-NF-κB p65 (Ser529) and phospho-NF-κB p65 (Ser536) and nuclear NF-κB p65 translocation in AML cells, indicating that this molecule can suppress NF-κB signalling. DNA fragmentation, nuclear condensation, cell shrinkage, phosphatidylserine externalisation, loss of transmembrane mitochondrial potential, caspase-3 activation and PARP-(Asp 214) cleavage were detected in bithionol-treated AML cells, indicating the induction of apoptosis. Furthermore, this compound increased mitochondrial superoxide levels, and bithionol-induced cell death was partially prevented by cotreatment with the selective ferroptosis inhibitor ferrostatin-1, indicating the induction of ferroptosis. In addition, bithionol synergised with venetoclax in AML cells, indicating the translational potential of bithionol to enhance the effects of venetoclax in patients with AML. Taken together, these data indicate that bithionol is a potential new anti-AML drug.
期刊介绍:
Cell Death Discovery is a multidisciplinary, international, online-only, open access journal, dedicated to publishing research at the intersection of medicine with biochemistry, pharmacology, immunology, cell biology and cell death, provided it is scientifically sound. The unrestricted access to research findings in Cell Death Discovery will foster a dynamic and highly productive dialogue between basic scientists and clinicians, as well as researchers in industry with a focus on cancer, neurobiology and inflammation research. As an official journal of the Cell Death Differentiation Association (ADMC), Cell Death Discovery will build upon the success of Cell Death & Differentiation and Cell Death & Disease in publishing important peer-reviewed original research, timely reviews and editorial commentary.
Cell Death Discovery is committed to increasing the reproducibility of research. To this end, in conjunction with its sister journals Cell Death & Differentiation and Cell Death & Disease, Cell Death Discovery provides a unique forum for scientists as well as clinicians and members of the pharmaceutical and biotechnical industry. It is committed to the rapid publication of high quality original papers that relate to these subjects, together with topical, usually solicited, reviews, editorial correspondence and occasional commentaries on controversial and scientifically informative issues.