低温保存过程中不同阶段斑马鱼精子的氧化应激和DNA损伤。

IF 1.4 4区生物学 Q4 DEVELOPMENTAL BIOLOGY Zebrafish Pub Date : 2021-04-01 Epub Date: 2021-03-01 DOI:10.1089/zeb.2020.1942

Rômulo Batista Rodrigues, Mariana Uczay, Verônica Bidinotto Brito, Antonio Cesar Godoy, Dinara Jaqueline Moura, Carla Vogel, Ana Carina Nogueira Vasconcelos, Danilo Pedro Streit

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引用次数: 4

摘要

尽管配子低温保存通过延长细胞的储存时间促进了生殖研究的进步，但在冻融循环中，细胞不可避免地会受到低温损伤。在这里，我们评估氧化应激和DNA损伤的斑马鱼精子在低温保存过程的不同阶段。人们普遍观察到，样品的冷冻和解冻导致活性氧的生成和过氧化氢酶的活性增加，巯基的生成和超氧化物歧化酶的活性降低。碱性彗星试验表明，DNA损伤在平衡时间后增加，在冷冻和解冻后增加更大。用甲酰胺嘧啶糖基酶和核酸内切酶III修饰的彗星实验比标准彗星实验显示出更大的DNA损伤，表明在低温保存的所有阶段嘌呤和嘧啶都被高度氧化。我们的研究结果表明，冻融过程在平衡阶段造成的氧化应激和DNA损伤比冷冻保护剂毒性更大。

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Oxidative Stress and DNA Damage of Zebrafish Sperm at Different Stages of the Cryopreservation Process.

Although gamete cryopreservation has facilitated advancement of reproduction research by allowing the storage of cells over prolonged periods of time, during freezing-thawing cycles, cells inevitably suffer from cryoinjuries. Here, we evaluate oxidative stress and DNA damage of zebrafish sperm at different stages of the cryopreservation process. It was generally observed that the freezing and thawing of the samples led to an increase in the generation of reactive oxygen species and the activity of the catalase enzyme and a reduction in the generation of sulfhydryl groups and superoxide dismutase activity. The alkaline comet assay demonstrated that DNA damage increased after equilibration time, with an even greater increase after freezing and thawing. The comet assay modified with the enzyme formamidopyrimidine glycosylase, and Endonuclease III demonstrated greater DNA damage than the standard comet assay, demonstrating a high degree of oxidation of purines and pyrimidines at all stages of cryopreservation. Our results show that the freeze and thaw processes cause greater oxidative stress and DNA damage than cryoprotectant toxicity during exposure at the equilibrium stage.

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来源期刊

Zebrafish DEVELOPMENTAL BIOLOGY-ZOOLOGY

CiteScore

3.60

自引率

5.00%

发文量

审稿时长

3 months

期刊介绍： Zebrafish is the only peer-reviewed journal dedicated to the central role of zebrafish and other aquarium species as models for the study of vertebrate development, evolution, toxicology, and human disease. Due to its prolific reproduction and the external development of the transparent embryo, the zebrafish is a prime model for genetic and developmental studies. While genetically more distant from humans, the vertebrate zebrafish nevertheless has comparable organs and tissues, such as heart, kidney, pancreas, bones, and cartilage. Zebrafish introduced the new section TechnoFish, which highlights these innovations for the general zebrafish community. TechnoFish features two types of articles: TechnoFish Previews: Important, generally useful technical advances or valuable transgenic lines TechnoFish Methods: Brief descriptions of new methods, reagents, or transgenic lines that will be of widespread use in the zebrafish community Zebrafish coverage includes: Comparative genomics and evolution Molecular/cellular mechanisms of cell growth Genetic analysis of embryogenesis and disease Toxicological and infectious disease models Models for neurological disorders and aging New methods, tools, and experimental approaches Zebrafish also includes research with other aquarium species such as medaka, Fugu, and Xiphophorus.