Radiation-induced recovery processes in cultured marsupial cells

Ronald Overberg , Gamini Chandrasena, Claud S. Rupert
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引用次数: 5

Abstract

The ultraviolet sensitivity of Potorous tridactylus male kidney (PtK-2) cells is markedly increased by post irradiation treatment for 24 h with 5 μM emetime (which inhibits protein synthesis by acting on the 40S ribosomal subunit), or with 5 μM cycloheximide (which inhibits by interaction with the 60S subunit), or with the RNA polymerase II inhibitor 5,6,-dichloro-1-ß-ribofuranosylbenzimidazole at 50 μM. All 3 treatments give the same sensitivity, while unirradiated cells are little affected. Shortening the time of treatment, or delaying application of the drugs decreases their effect on the same time schedule. Preirradiation of cells, with no drug treatment in the following 8 h, diminishes the sensitivity to a subsequent irradiation with protein synthesis blocked afterwards. Photoreactivation immediately following such preirradiation eliminates its desensitizing effect. Inhibiting protein synthesis after irradiation also markedly reduces the frequency of UV-induced mutants in the surviving population. These facts suggest that gene expression in the period following irradiation facilitates recovery from radiation damage, with an increased probability of mutation, reminiscent of the “SOS response” in Escherichia coli.

辐射诱导培养有袋动物细胞的恢复过程
5 μM emetime(通过作用于40S核糖体亚基抑制蛋白合成)、5 μM环己亚胺(通过与60S亚基相互作用抑制蛋白合成)或50 μM RNA聚合酶II抑制剂5,6,-二氯-1-ß-核糖呋喃基苯并咪唑辐照24 h后,PtK-2细胞的紫外线敏感性显著提高。所有三种治疗方法都具有相同的敏感性,而未照射的细胞几乎没有受到影响。缩短治疗时间,或延迟使用药物会降低其在同一时间内的效果。对细胞进行预辐照,在随后的8小时内不进行药物处理,降低了对后续辐照的敏感性,随后蛋白质合成被阻断。在这种预照射后立即进行光活化,消除了它的脱敏作用。照射后抑制蛋白质合成也显著降低了存活种群中紫外线诱导突变体的频率。这些事实表明,辐照后一段时间的基因表达有助于从辐射损伤中恢复,突变的可能性增加,使人想起大肠杆菌的“SOS反应”。
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