Belli Mauro, Campa Alessandro, Dini Valentina, Esposito Giuseppe, Furusawa Yoshiya, Simone Giustina, Sorrentino Eugenio, Tabocchini Maria Antonella
Health and Technology Department, Istituto Superiore di Sanità, and INFN Sezione di Roma1, Gruppo Collegato Sanità, Roma, Italy.
Radiat Res. 2006 Jun;165(6):713-20. doi: 10.1667/RR3574.1.
DNA fragmentation was studied in the fragment size range 0.023-5.7 Mbp after irradiation of human fibroblasts with iron-ion beams of four different energies, i.e., 200 MeV/nucleon, 500 MeV/nucleon, 1 GeV/nucleon and 5 GeV/nucleon, with gamma rays used as the reference radiation. The double-strand break (DSB) yield (and thus the RBE for DNA DSB induction) of the four iron-ion beams, which have LETs ranging from 135 to 442 keV/mum, does not vary greatly as a function of LET. As a consequence, the variation of the cross section for DSB induction mainly reflects the variation in LET. However, when the fragmentation spectra were analyzed with a simple theoretical tool that we recently introduced, the results showed that spatially correlated DSBs, which are absent after gamma irradiation, increased markedly with LET for the iron-ion beams. This occurred because iron ions produce DNA fragments smaller than 0.75 Mbp with a higher probability than gamma rays (a probability that increases with LET). These sizes include those expected from fragmentation of the chromatin loops with Mbp dimensions. This result does not exclude a correlation at distances smaller than the lower size analyzed here, i.e. 23 kbp. Moreover, the DSB correlation is dependent on dose, decreasing when dose increases; this can be explained with the argument that at increasing dose there is an increasing fraction of fragments produced by DSBs caused by separate, uncorrelated tracks.
在用四种不同能量(即200兆电子伏特/核子、500兆电子伏特/核子、1吉电子伏特/核子和5吉电子伏特/核子)的铁离子束照射人成纤维细胞后,研究了0.023 - 5.7兆碱基对片段大小范围内的DNA片段化情况,并以γ射线作为参考辐射。这四种铁离子束的线能量转移(LET)范围为135至442千电子伏特/微米,其双链断裂(DSB)产率(以及因此产生的DNA DSB诱导相对生物学效应(RBE))随LET的变化不大。因此,DSB诱导截面的变化主要反映了LET的变化。然而,当用我们最近引入的一种简单理论工具分析片段化谱时,结果表明,γ射线照射后不存在的空间相关DSB,对于铁离子束而言,会随着LET显著增加。出现这种情况是因为铁离子产生小于0.75兆碱基对的DNA片段的概率高于γ射线(该概率随LET增加)。这些大小包括预期的具有兆碱基对尺寸的染色质环片段化产生的大小。该结果并不排除在小于此处分析的下限大小(即23千碱基对)的距离处存在相关性。此外,DSB相关性取决于剂量,剂量增加时会降低;这可以用以下观点来解释:随着剂量增加,由单独的、不相关的径迹引起的DSB产生的片段比例增加。
