Peter Herrlich , Klaus Bender , Axel Knebel , Frank D Böhmer , Steffen Groβ , Christine Blattner , Hans-Jobst Rahmsdorf , Martin Göttlicher
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引用次数: 16
Abstract
Over a dose range up to 50 Gy of low-LET (linear energy transfer) ionizing radiation and up to 5 k)/m2 UVB, mammalian cells convert molecular damage into productive response (mostly gain of function). By inactivation of negative regulatory components, such as protein tyrosine phosphatases as one mechanism discovered, the balance between restraining and stimulating influences is disturbed and an increase in signal flow results. Also DNA damage causing transcriptional arrest produces a signalling cascade of as yet unknown details. Such stimulation of the intracellular communication network can lead to apoptosis, elevated cell cycling and differentiation processes possibly including repair and recombination. The outcome likely depends on integration of all signals received which is as yet ill-understood. Although accurate determinations of low-dose inductions have not been achieved for technical reasons, the dose-response curves of induced signal transduction likely show threshold characteristics, in contrast to the direct consequences of DNA damage.
在高达50 Gy的低let(线性能量转移)电离辐射和高达5 k /m2的UVB剂量范围内,哺乳动物细胞将分子损伤转化为生产反应(主要是功能增益)。通过负调控成分的失活,如蛋白酪氨酸磷酸酶作为一种机制被发现,抑制和刺激影响之间的平衡被扰乱,信号流结果增加。此外,DNA损伤引起的转录阻滞会产生一个信号级联,其细节尚不清楚。这种细胞内通讯网络的刺激可导致细胞凋亡,细胞周期和分化过程的升高,可能包括修复和重组。结果可能取决于所接收到的所有信号的整合,而这一点目前还不清楚。虽然由于技术原因,低剂量诱导的准确测定尚未实现,但诱导信号转导的剂量-响应曲线可能显示阈值特征,与DNA损伤的直接后果相反。
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