放射生物学中协同和拮抗相互作用的一般模式

E. Evstratova, S. Geras'kin, G. Zhurakovskaya, M. Tolkaeva, V. Petin
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引用次数: 0

摘要

目前,多模式治疗被广泛应用于包括癌症在内的慢性疾病的治疗。联合使用电离或电离辐射与热疗或化疗药物增加治疗的有效性。生物对联合治疗的反应可能是协同的、附加的或拮抗的。本研究旨在探讨生物客体暴露于不同因素后协同和拮抗效应发展的共同规律。本文对本文作者收到的实验数据和其他团队发表的数据进行了分析。研究发现,同一因素的治疗效果并不取决于所研究的对象,而是取决于药物的参数:剂量率、强度、加热程度(温度)、化疗药物的浓度等。协同作用的共同规律是:1)协同效应最大,当各因子同时作用时,协同效应的大小取决于各因子所造成损伤的比例;2)影响因素之间的最优相关性提供了最大的协同效应;3)为了保持最大的协同或拮抗作用相互作用,有必要减少或增加其中一种药物的强度,并按比例增加或减少另一种药物的强度。高温和甘油对细菌细胞的联合作用被认为是拮抗作用的一个例子。暴露于不同浓度的氯化钠(NaCl),结合电离辐射、超声波或热疗,形成稳定的拮抗作用。甘油和NaCl都是渗透物质,它们的负面影响可以通过稳定渗透稳态系统来减弱。酵母细胞表现出紫外光与热疗的协同作用,随着温度负荷的降低和影响因子参数的偏离,开始平稳地转入拮抗作用。同时,拮抗作用还表现为各药剂的最佳剂量比,在最佳剂量比下,所观察到的拮抗效果最大。得出了无论生物对象如何,在不同性质的因素相互作用下,协同与拮抗作用表现的主要规律具有共性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
General patterns of synergistic and antagonistic interactions in radiobiology
Currently multimodal therapy is widely used for treatment of chronic diseases including cancer. The joint use of ionizing or onionizing radiation with hyperthermia or chemotherapeutic agents increases the effectiveness of the treatment. A response of living things to combination treatment may be synergistic, additive or antagonistic. The study is aimed to examine the common regularities of synergistic and antagonistic effects development following exposure of biological objects to various factors. The article presents analysis of experimental data received by the authors of the paper and the data published by other teams. It has been found that therapeutic effects of the same factors do not depend on the objects under study, it depends on the agents parameters: a dose rate, intensity, degree of heating (temperature), concentration of chemotherapeutic agents, etc. The common regularities of synergistic interactions are: 1) synergistic effect is maximum, if the agents act simultaneously, it depends on the ratio of injuries induced by each agent; 2) the optimal correlation between influencing factors provides the maximum synergistic effect; 3) in order to maintain maximum synergistic or antagonistic effects interaction, it is necessary to reduce or to increase the intensity of one of the agents and proportionally to increase or to reduce the intensity of the second agent. The combined effects of hyperthermia and glycerol on bacterial cells are considered as an example of the antagonistic effect. Exposure to different concentrations of sodium chloride, NaCl, in combination with ionizing radiation, or ultrasound, or hyperthermia forms a stable antagonistic effect. Both glycerol and NaCl are osmotic substances and their negative effects can be attenuated by means that stabilize the osmotic homeostasis system. Yeast cells shown the synergistic interaction of ultraviolet light and hyperthermia then it began smoothly passed into antagonistic interaction as the temperature load decreased and the parameters of the influencing factors deviated from the optimal. At the same time, the antagonistic effects are also characterized by the optimal ratio of doses of the agents used, at which the observed effect has the maximum value. The conclusion is made about the commonality of the main regularities of the manifestation of the effects of synergy and antagonism at the interaction of factors of different nature regardless of the biological object, which is subjected to combined influence.
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