辐射对正常人尿路上皮细胞的凋亡及其他影响。

C Mothersill, K O'Malley, D Murphy, C B Seymour
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引用次数: 4

摘要

在本文中,试图确定可能在人体组织中辐射效应量化中潜在使用的端点。辐照培养的细胞没有被选择用于克隆存活,而是在辐照后留在原位生长,显示出各种形态和生化异常。这些包括核碎裂和其他程序性细胞死亡的证据,但它们也包括相当数量的溶解、坏死和持续的异常生长和功能,这些在辐照细胞的后代中表达。诱导与应激或休克反应、生长和细胞周期控制以及凋亡控制相关的蛋白质也被发现并可能持续存在。这些不同反应的剂量依赖性已被记录下来,因为它可能在很大程度上决定了辐射暴露的结果,即细胞是否死亡、正常分裂、或产生基因组不稳定、突变和后代的最终致癌进展。显然,一个死亡的细胞不会对生物体造成进一步的威胁,一个完全修复的细胞也不会。因此,辐射防护研究面临的一个主要挑战是确定有可能在辐射损害下存活的人群。结果表明,不同患者培养物对辐射的反应存在差异,这在原发性正常人尿路上皮的外植体培养系统中可以检测到。辐射后的生长模式和蛋白表达与细胞凋亡是低剂量辐射反应的主要决定因素一致。这种形式的死亡似乎在较高剂量下受到抑制,并且在大多数受试者中,导致存在高度异常的细胞群,尽管无论其祖细胞是否受到辐射,其种群大小都是相同的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Apoptosis and other effects of radiation in normal human urothelial cells.

In this paper, an attempt is made to identify endpoints that might be of potential use in the quantification of radiation effects in human tissues. Irradiated cultures of cells that are not selected for clonogenic survival but are left in situ to grow after irradiation show a wide variety of morphological and biochemical abnormalities. These include nuclear fragmentation and other evidence of programmed cell death, but they also include a considerable amount of lysis, necrosis, and persistent abnormal growth and function, which are expressed in the progeny of irradiated cells. Induction of proteins associated with stress or shock responses, growth and cell cycle control, and control of apoptosis are also seen and may persist. The dose dependence of these various responses is documented, because it probably determines to a large extent the outcome of radiation exposure in terms of whether a cell dies, divides normally, or develops genomic instability, mutation, and ultimate carcinogenic progression of the progeny. Clearly, a cell that dies presents no further threat to the organism, nor does a fully repaired cell. Therefore, a major challenge facing radiation protection research is to define the population at risk of surviving with damage. The results show that there is a variation in response to radiation between different patient cultures that is detectable in an explant culture system of primary normal human urothelium. The growth pattern and protein expression postirradiation is consistent with apoptosis being a major determinant of low dose response to radiation. This form of death appears to be suppressed at higher doses and, in the majority of subjects, results in the presence of a highly abnormal population of cells, even though the population size is the same whether their progenitors were irradiated or not.

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