EFFECT OF RADIATION ON AGING PROCESSES AND TELOMERE LENGTH.

Problemy radiatsiinoi medytsyny ta radiobiolohii Pub Date : 2022-12-01 DOI:10.33145/2304-8336-2022-27-107-119

K Dondoladze, M Nikolaishvili, T Museliani, G Jikia

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Abstract

Telomeres are the ending areas of chromosomes - protective «caps» that ensure the stability of chromosomes. Telomere shortening is one of the most important biological signs of aging and is involved in cellular aging and the «mitotic clock» mechanism. One of the known mechanisms of the impact of radiation on the aging process is damage to telomeres by free radicals. Oxidative stress has a toxic effect on telomere length. The increase in free radicals occurs under the action of both ionizing and nonionizing radiation, although antioxidant mechanisms are often able to neutralize harmful free radicals. Low doses of nonionizing and ionizing radiation even cause the activation of antioxidant systems, however, when the body is exposed to radiation at a high dose or for a long time, or if pathological processes with oxidative stress occur in the body, damage to cells becomes more noticeable, and aging processes accelerate. Maintaining telomere length and a normal rate of aging is important for health. In this review, we want to discuss the role of ionizing and nonionizing radiation in cellular aging, in particular, in the shortening of telomere length.

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辐射对衰老过程和端粒长度的影响。

端粒是染色体的末端区域，是确保染色体稳定性的保护性“帽”。端粒缩短是衰老最重要的生物学标志之一，与细胞衰老和“有丝分裂时钟”机制有关。辐射对衰老过程影响的已知机制之一是自由基对端粒的损害。氧化应激对端粒长度有毒性作用。自由基的增加发生在电离和非电离辐射的作用下，尽管抗氧化机制通常能够中和有害的自由基。低剂量的非电离和电离辐射甚至会引起抗氧化系统的激活，然而，当人体暴露于高剂量或长时间的辐射下，或者体内发生氧化应激的病理过程时，对细胞的损害变得更加明显，衰老过程加速。保持端粒长度和正常的衰老速度对健康很重要。在这篇综述中，我们想讨论电离和非电离辐射在细胞衰老中的作用，特别是在端粒长度缩短方面。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Problemy radiatsiinoi medytsyny ta radiobiolohii Medicine-Radiology, Nuclear Medicine and Imaging

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