Study of possible radioprotective properties of deanol aceglumate under the action of ionizing radiation on human cells

Q4 Physics and Astronomy
E.R. Vypova, P.S. Kuptsova, L.N. Komarova, A.A. Berseneva, D.A. Baldov, A.A. Kotlyarov
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Abstract

One of the effective methods to mitigate late side effects of radiotherapy is to use radioprotectors that reduce harmful effects of ionizing radiation on living cells. Nowadays there are no ideal and multifunctional radioprotectors. In this connection, the research priority is the search for new radioprotectors able to protect healthy cells from side effects of radiation therapy. A promising compound that can be used as a radioprotector is deanol aceglumate. Deanol aceglumate is known as a low-toxic nootropic drug. In addition, there is evidence of its hepatoprotective and antioxidant activity. The aim of the study is to investigate the potential properties of deanol aceglumate to protect human fibroblasts (hTERT) from gamma-radiation and C-12 ions and to select the optimal time of cell incubation with deanol aceglumate prior to irradiation. The effect of radiation was evaluated by the criteria of the time of cells doubling and cells clonogenic activity. It is shown that deanol aceglumate at a concentration of 1000 mcM has a radioprotective effect on human fibroblasts exposed to gamma radiation. The optimal time of the cells incubation prior to irradiation is 24 hours in order to achieve the highest radioprotective effect. Deanol aceglumate at a concentration of 1000 mcM does not protect normal cells when exposed to C-12 ions beyond Bragg Peak. It has been found that deanol aceglumate radioprotective properties depend significantly on the quality of ionizing radiation. The use of deanol aceglumate can be a promising way to reduce the ionizing radiation-induced diverse effect on normal human cells during radiation therapy of cancer patients.
电离辐射对人体细胞辐射防护作用的研究
减轻放射治疗后期副作用的有效方法之一是使用放射性保护剂,以减少电离辐射对活细胞的有害影响。目前还没有理想的、多功能的辐射防护器。在这方面,研究的重点是寻找能够保护健康细胞免受放射治疗副作用影响的新型放射保护剂。一种很有前途的可以用作放射性保护剂的化合物是乙酰乙醇酸酯。乙酰谷氨酸去醇是一种低毒的益智药物。此外,有证据表明其具有肝保护和抗氧化活性。本研究的目的是研究乙酰去醇酸酯保护人成纤维细胞(hTERT)免受γ辐射和C-12离子的潜在特性,并选择辐照前乙酰去醇酸酯细胞孵育的最佳时间。以细胞倍增时间和细胞克隆活性为标准评价辐射效应。研究表明,浓度为1000 mcM的乙酰化癸醇对暴露于伽马辐射的人成纤维细胞具有辐射防护作用。照射前细胞的最佳孵育时间为24小时,以达到最高的辐射防护效果。当暴露于超过布拉格峰的C-12离子时,浓度为1000 mcM的乙酰化癸醇不能保护正常细胞。研究发现,乙酰谷氨酸去醇的辐射防护性能与电离辐射的质量密切相关。在肿瘤患者放射治疗过程中,乙酰化癸醇的应用有望降低电离辐射对正常人体细胞的各种影响。
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来源期刊
Radiation and Risk
Radiation and Risk Physics and Astronomy-Nuclear and High Energy Physics
CiteScore
0.80
自引率
0.00%
发文量
27
期刊介绍: The Bulletin “Radiation and Risk” is a peer-reviewed scientific and practical periodical journal that covers many areas related to radiation effects on living systems. The journal publishes novel scientific papers related to the use of radiation in medicine, physics, epidemiology and biology, reviews, including scientific books reviews, as well as materials of the Russian Scientific Commission on Radiological Protection.
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