Evaluation of the efficacy of radiation-modifying compounds using γH2AX as a molecular marker of DNA double-strand breaks.

Q4 Biochemistry, Genetics and Molecular Biology

Genome Integrity Pub Date : 2011-01-25 DOI:10.1186/2041-9414-2-3

Li-Jeen Mah, Christian Orlowski, Katherine Ververis, Raja S Vasireddy, Assam El-Osta, Tom C Karagiannis

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引用次数: 30

Abstract

Radiation therapy is a widely used therapeutic approach for cancer. To improve the efficacy of radiotherapy there is an intense interest in combining this modality with two broad classes of compounds, radiosensitizers and radioprotectors. These either enhance tumour-killing efficacy or mitigate damage to surrounding non-malignant tissue, respectively. Radiation exposure often results in the formation of DNA double-strand breaks, which are marked by the induction of H2AX phosphorylation to generate γH2AX. In addition to its essential role in DDR signalling and coordination of double-strand break repair, the ability to visualize and quantitate γH2AX foci using immunofluorescence microscopy techniques enables it to be exploited as an indicator of therapeutic efficacy in a range of cell types and tissues. This review will explore the emerging applicability of γH2AX as a marker for monitoring the effectiveness of radiation-modifying compounds.

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利用γ - h2ax作为DNA双链断裂的分子标记评价辐射修饰化合物的功效。

放射治疗是一种广泛应用于癌症的治疗方法。为了提高放射治疗的疗效，人们对将这种方式与两大类化合物——放射增敏剂和放射保护剂——结合起来产生了浓厚的兴趣。它们要么增强肿瘤杀伤效能，要么减轻对周围非恶性组织的损害。辐射暴露经常导致DNA双链断裂的形成，其标志是诱导H2AX磷酸化产生γH2AX。除了在DDR信号传导和双链断裂修复协调中发挥重要作用外，利用免疫荧光显微镜技术可视化和定量γ - h2ax焦点的能力使其能够作为一系列细胞类型和组织治疗效果的指标。这篇综述将探讨γ - h2ax作为监测辐射修饰化合物有效性的标记物的新兴适用性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Genome Integrity Biochemistry, Genetics and Molecular Biology-Genetics

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