Protective role of hesperidin against γ-radiation-induced oxidative stress and apoptosis in rat testis

Background Gamma (γ) ray, an electromagnetic radiation, is occasionally accompanying the emission of an alpha or beta particle. Exposure to such radiation can cause cellular changes such as mutations, chromosome aberration and cellular damage which depend upon the total amount of energy, duration of...

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Published in:Journal of biological research (Thessalonikē, Greece) Greece), 2017-03, Vol.24 (1), p.1, Article 5
Main Authors: Shaban, Nadia Z., Ahmed Zahran, Ahmed M., El-Rashidy, Fatma H., Abdo Kodous, Ahmad S.
Format: Article
Language:English
Subjects:
Alpha rays
Antioxidants
Apoptosis
Beta particles
Beta rays
Calcium
Calcium (mitochondrial)
Calcium ions
Catalase
Cholesterol
Chromosome aberrations
Chromosomes
DNA fragmentation
Electromagnetic radiation
Exposure
Gene expression
Germ cells
Glutathione
Hesperidin
Histopathology
Injuries
Ionizing radiation
Lipid peroxidation
Lipids
Low density lipoprotein
Malondialdehyde
Mitochondria
Mutation
Nitric oxide
Oxidative stress
Peroxidation
Protection
Radiation
Radiation dosage
Radiation effects
Reactive oxygen species
Spermatogenesis
Spermatogonia
Sulfur oxides
Superoxide dismutase
Testes
Xanthine oxidase
γ Radiation
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Summary:Background Gamma (γ) ray, an electromagnetic radiation, is occasionally accompanying the emission of an alpha or beta particle. Exposure to such radiation can cause cellular changes such as mutations, chromosome aberration and cellular damage which depend upon the total amount of energy, duration of exposure and the dose. Ionizing radiation can impair spermatogenesis and can cause mutations in germ cells. In general, type B spermatogonia are sensitive to this type of radiation. The current study was carried out to evaluate the protective role of hesperidin (H), as a polyphenolic compound, on rat testis injury induced by γ-radiation. Methods Rats were divided into groups including C group (control rats), R (irradiated) group (rats irradiated with γ-radiation), Vehicle (V) group (rats administered with dimethylsulfoxide “DMSO”), H group (rats administered with H only), HR and RH groups (rats treated with H before and after exposure to γ-radiation, respectively). Malondialdehyde (MDA: the end product of lipid peroxidation “LPO”) and xanthine oxidase (XO: it generates reactive oxygen species “ROS”) in testes homogenate as well as nitric oxide (NO: as ROS) in mitochondrial matrix were determined. The apoptotic markers including DNA-fragmentation (DNAF) in testes homogenate and calcium ions (Ca2+) in mitochondrial matrix were determined. Superoxide dismutase (SOD) and catalase (CAT) activities in testes homogenate, while reduced glutathione “GSH” in nuclear matrix were determined. Also histopathological examination for testes tissues through electron microscope was studied. Results Exposure of rats to γ-radiation (R group) increased the levels of MDA, NO, DNAF, Ca2+ and XO activity, while it decreased GSH level, SOD and CAT activities as compared to the C groups; γ-radiation increased oxidative stress (OS), LPO, apoptosis and induced testes injuries. These results are in agreement with the histopathological examination. In contrast, treatment with H before or after exposure to γ-radiation (HR and RH groups, respectively) decreased the levels of MDA, NO, DNAF and Ca2+ but increased GSH level and the activities of SOD, CAT and XO as compared to R group and this indicates that H decreased OS, LPO and apoptosis. Also, the histopathological results showed that H improved testis architecture and this is related to the antioxidant and anti-apoptotic activities of H contents. Protection is more effective when H is given before rather than after exposure. Finally, admini
ISSN:2241-5793
1790-045X
2241-5793
DOI:10.1186/s40709-017-0059-x