Tea polyphenols alleviate the adverse effects of diabetes on oocyte quality

Maternal diabetes mellitus reduces oocyte quality, such as abnormalities of spindle assembly and chromosome segregation, mitochondrial dysfunction, decrease of fertilization rate, increase of ROS, and so on. So, it is important to research how to restore the decreased oocyte quality induced by mater...

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Bibliographic Details
Published in:Food & function 2022-05, Vol.13 (9), p.5396-5405
Main Authors: Lu, Jun, Zhao, Shu-Xian, Zhang, Man-Yu, Ji, Peng-Yuan, Chao, Shuo, Li, Li-Jun, Yin, Shen, Zhao, Lei, Zhao, Hua, Sun, Qing-Yuan, Ge, Zhao-Jia
Format: Article
Language:English
Subjects:
Abnormalities
Animals
Antioxidants
Assembly
Chromosomes
Damage
Deoxyribonucleic acid
Diabetes
Diabetes mellitus
Diabetes Mellitus, Experimental - metabolism
DNA
DNA damage
DNA repair
Fertilization
Gametocytes
Gene expression
Genes
Green tea
Maturation
Membrane potential
Mice
Misalignment
Mitochondria
Oocytes
Oxidation
Polyphenols
Polyphenols - metabolism
Polyphenols - pharmacology
Reactive oxygen species
Reactive Oxygen Species - metabolism
Side effects
Spindles
Superoxide dismutase
Tea - metabolism
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Summary:Maternal diabetes mellitus reduces oocyte quality, such as abnormalities of spindle assembly and chromosome segregation, mitochondrial dysfunction, decrease of fertilization rate, increase of ROS, and so on. So, it is important to research how to restore the decreased oocyte quality induced by maternal diabetes mellitus. Polyphenols are the most abundant bioactive components of green tea. It is reported that tea polyphenols have many health functions, for instance anti-oxidation, anti-inflammation, anti-obesity, and anti-diabetes. Thus, we hypothesize that tea polyphenols may play a crucial role in alleviating adverse effects of diabetes on oocyte quality. In the present study, we researched the effects of tea polyphenols on diabetic oocyte maturation . Compared with the control, oocytes from diabetic mice displayed a lower maturation rate and a higher frequency of spindle defects and chromosome misalignment. However, tea polyphenols significantly increased the oocyte maturation rate, and reduced the incidence of abnormal spindle assembly and chromosome segregation. Tea polyphenols also obviously decreased the reactive oxygen species (ROS) levels in diabetic oocytes, and increased the expression of antioxidant genes ( and ). Abnormal mitochondrial membrane potential was also alleviated in diabetic oocytes, and the expression of genes regulating mitochondrial fusion ( , and ) and fission ( ) was significantly increased while tea polyphenols were added. Meanwhile, tea polyphenols reduced DNA damage in diabetic oocytes which may be mediated by the increased expression of , related to DNA damage repair. Our results suggest that tea polyphenols would, at least partially, restore the adverse effects of diabetes mellitus on oocyte quality.
ISSN:2042-6496
2042-650X
DOI:10.1039/d1fo03770f