Heat Induces Histone γH2AX Formation under Hypoxia

Y. Yoshida, S. Tominaga, Liqiu Ma, A. Takahashi
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Abstract

: Tumor hypoxia is a negative prognostic and predictive factor for radiotherapy, and hyperthermia therapy is clinically useful for overcoming radioresistance in hypoxic tumors. However, the mechanism for the hyperthermia-induced cell death observed in hypoxic tumors remains unknown. We aimed to clarify the relationship between heat sensitivity and heat-induced DNA double-strand breaks (DSBs), reflecting DNA damage, in tumor cells under hypoxia. HeLa human cervical epithelial adenocarcinoma cells were subjected to heat treatment or X-ray irradiation under hypoxia or normoxia. Control cells were left untreated. The formation of DSBs was evaluated by immunocytochemistry for histone γ H2AX foci, given that one histone γ H2AX focus reflects one DSB. Cell survival was evaluated by colony-formation assays. The colony-formation assays revealed that hypoxic cells showed greater radioresistance, as expected, but only slightly higher heat resistance than normoxic cells. Under normoxia, heat-treated or X-ray-irradiated cells showed larger amounts of γ H2AX foci formation than control cells, reflecting increased DSB formation and more DNA damage. Under hypoxia, heat-treated cells showed a less remarkable decrease in γ H2AX foci formation than X-ray-irradiated cells, reflecting sustained levels of DSB formation and DNA damage. The present findings indicate that heat treatment can induce DNA damage via DSB formation reflected by γ H2AX foci formation under hypoxia. The findings provide further support for an important role of heat-induced DSB damage in cell killing in hypoxic tumors that show radioresistance. Hyperthermia therapy can be beneficial for the prognosis of cancer patients through increased DNA damage leading to tumor cell death.
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热诱导缺氧条件下组蛋白γ - h2ax的形成
肿瘤缺氧是放疗的不良预后和预测因素,热疗治疗在临床上有助于克服缺氧肿瘤的放射抵抗。然而,在低氧肿瘤中观察到的高温诱导细胞死亡的机制尚不清楚。我们旨在阐明在缺氧条件下肿瘤细胞的热敏性与热诱导DNA双链断裂(DSBs)之间的关系,DSBs反映了DNA损伤。将HeLa人宫颈上皮腺癌细胞在缺氧或常氧条件下进行热处理或x射线照射。对照细胞未经处理。考虑到一个组蛋白γ H2AX灶反映一个DSB,通过免疫细胞化学评估DSB的形成。通过集落形成试验评估细胞存活率。集落形成实验显示,缺氧细胞表现出更强的抗辐射能力,正如预期的那样,但耐热性仅略高于常氧细胞。在常氧条件下,热处理或x射线照射的细胞比对照细胞显示出更多的γ H2AX病灶形成,反映出DSB形成增加和更多的DNA损伤。在缺氧条件下,与x射线照射的细胞相比,热处理细胞的γ H2AX灶形成的减少幅度较小,这反映了DSB形成和DNA损伤的持续水平。研究结果表明,在缺氧条件下,热处理可以通过DSB的形成诱导DNA损伤,DSB的形成反映为γ H2AX病灶的形成。该研究结果进一步支持热诱导DSB损伤在显示放射抗性的缺氧肿瘤细胞杀伤中的重要作用。热疗可以通过增加DNA损伤导致肿瘤细胞死亡来改善癌症患者的预后。
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