髓系白血病细胞对高低线性能量转移辐射的抵抗机制。
Mechanisms of resistance to high and low linear energy transfer radiation in myeloid leukemia cells.
机构信息
Molecular Pharmacology and Chemistry Program and Leukemia Service, Memorial Sloan-Kettering Cancer Center, New York, NY 10065, USA.
出版信息
Blood. 2012 Sep 6;120(10):2087-97. doi: 10.1182/blood-2012-01-404509. Epub 2012 Jul 24.
Abstract
Low linear energy transfer (LET) ionizing radiation (IR) is an important form of therapy for acute leukemias administered externally or as radioimmunotherapy. IR is also a potential source of DNA damage. High LET IR produces structurally different forms of DNA damage and has emerged as potential treatment of metastatic and hematopoietic malignancies. Therefore, understanding mechanisms of resistance is valuable. We created stable myeloid leukemia HL60 cell clones radioresistant to either γ-rays or α-particles to understand possible mechanisms in radioresistance. Cross-resistance to each type of IR was observed, but resistance to clustered, complex α-particle damage was substantially lower than to equivalent doses of γ-rays. The resistant phenotype was driven by changes in: apoptosis; late G2/M checkpoint accumulation that was indicative of increased genomic instability; stronger dependence on homology-directed repair; and more robust repair of DNA double-strand breaks and sublethal-type damage induced by γ-rays, but not by α-particles. The more potent cytotoxicity of α-particles warrants their continued investigation as therapies for leukemia and other cancers.
摘要
低线性能量转移 (LET) 电离辐射 (IR) 是一种重要的治疗急性白血病的方法,可通过外部照射或放射性免疫治疗进行。IR 也是 DNA 损伤的潜在来源。高 LET IR 会产生结构不同的 DNA 损伤,并且已成为治疗转移性和血液恶性肿瘤的潜在方法。因此,了解耐药机制具有重要意义。我们创建了对 γ 射线或 α 粒子具有辐射抗性的稳定髓样白血病 HL60 细胞克隆,以了解辐射抗性中的可能机制。观察到对每种类型的 IR 的交叉耐药性,但对聚集的、复杂的 α 粒子损伤的耐药性明显低于等效剂量的 γ 射线。抗性表型是由以下变化驱动的:细胞凋亡;晚期 G2/M 检查点积累,表明基因组不稳定性增加;对同源定向修复的依赖性更强;以及对 γ 射线诱导的 DNA 双链断裂和亚致死型损伤的修复更强,但对 α 粒子的修复没有增强。α 粒子更强的细胞毒性使其继续作为白血病和其他癌症的治疗方法进行研究。
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