Psychological and oxidative stress induce apoptosis through TRPV1 channel activation in granulosa cells of oocyte during in vitro fertilization

Q4 Biochemistry, Genetics and Molecular Biology

Journal of Cellular Neuroscience and Oxidative Stress Pub Date : 2019-06-21 DOI:10.37212/JCNOS.584712

D. U. Karatopuk

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引用次数: 0

Abstract

Several physiological and pathophysiological functions such as mitochondria and phagocytosis induce oxidative stress. Oxidative stress results in excessive production of reactive oxygen species (ROS). There is a high amount of psychologically and chemically stress in in vitro fertilization (IVF), because of presence stressful permanent infertility and treatment procedures (An et al. 2013). Oocytes are surrounded by granulosa cells. It is well-known that there is a direct relationship between oxidative stress contents of granulosa cells and oocyte quality (Tola et al 2013). Excessive Ca2+ influx induces excessive mitochondrial ROS production and apoptosis through activation of caspase activations. Involvement of voltage gated Ca2+ channels on oocyte quality and apoptosis in the granulosa cells has been clarified by results of several studies (Platano et al. 2013; Tola et al 2013). Transient receptor potential vanilloid 1 (TRPV1) channel is a calcium permeable and non-selective cation channel. The similar effects of voltage gated calcium channels may present between oxidative stress and TRPV1 channel activation in the oocyte, because the TRPV1 channel is activated by excessive production of ROS. The importance of TRPV1 channel on the oocyte maturation was recently reported (Cecconi et al. 2019). In the oral presentation, I will review recent studies on apoptosis through TRPV1 channel activation in granulosa cells of oocyte during IVF. In conclusion, current literature data indicated that psychological and oxidative stress-induced ROS, apoptosis and Ca2+ contents of oocyte and granulosa cells have very important roles on the oocyte maturation in patients with infertility during the IVF. There are some involvement clues of TRPV1 channels on the oocyte maturation and apoptosis, but the subject needs future studies.

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体外受精过程中，心理应激和氧化应激通过激活卵母细胞颗粒细胞TRPV1通道诱导细胞凋亡

一些生理和病理生理功能，如线粒体和吞噬作用诱导氧化应激。氧化应激导致活性氧(ROS)的过量产生。体外受精(IVF)中存在大量的心理和化学压力，因为存在永久性不孕和治疗过程的压力(An et al. 2013)。卵母细胞被颗粒细胞包围。众所周知，颗粒细胞氧化应激含量与卵母细胞质量之间存在直接关系(Tola et al . 2013)。过量的Ca2+内流通过激活caspase激活诱导过量的线粒体ROS产生和凋亡。电压门控Ca2+通道对卵母细胞质量和颗粒细胞凋亡的影响已经被几项研究的结果所阐明(Platano et al. 2013;Tola et al . 2013)。瞬时受体电位香草蛋白1 (TRPV1)通道是一种钙渗透性非选择性阳离子通道。电压门控钙通道的类似作用可能存在于氧化应激和卵母细胞中TRPV1通道激活之间，因为TRPV1通道被ROS的过量产生激活。最近报道了TRPV1通道对卵母细胞成熟的重要性(Cecconi et al. 2019)。在口头报告中，我将回顾IVF过程中卵母细胞颗粒细胞通过TRPV1通道激活凋亡的最新研究。综上所述，目前的文献资料表明，心理和氧化应激诱导的卵母细胞和颗粒细胞的ROS、凋亡和Ca2+含量对体外受精不孕患者卵母细胞成熟有非常重要的作用。TRPV1通道参与卵母细胞成熟和凋亡有一定线索，有待进一步研究。

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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来源期刊

Journal of Cellular Neuroscience and Oxidative Stress Biochemistry, Genetics and Molecular Biology-Biophysics

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Journal of Cellular Neuroscience and Oxidative Stress isan online journal that publishes original research articles, reviews and short reviews on themolecular basisofbiophysical,physiological and pharmacological processes thatregulate cellular function, and the control or alteration of these processesby theaction of receptors, neurotransmitters, second messengers, cation, anions,drugsor disease. Areas of particular interest are four topics. They are; 1. Ion Channels (Na+-K+Channels, Cl– channels, Ca2+channels, ADP-Ribose and metabolism of NAD+,Patch-Clamp applications) 2. Oxidative Stress (Antioxidant vitamins, antioxidant enzymes, metabolism of nitric oxide, oxidative stress, biophysics, biochemistry and physiology of free oxygen radicals) 3. Interaction Between Oxidative Stress and Ion Channels in Neuroscience (Effects of the oxidative stress on the activation of the voltage sensitive cation channels, effect of ADP-Ribose and NAD+ on activation of the cation channels which are sensitive to voltage, effect of the oxidative stress on activation of the TRP channels in neurodegenerative diseases such Parkinson’s and Alzheimer’s diseases) 4. Gene and Oxidative Stress (Gene abnormalities. Interaction between gene and free radicals. Gene anomalies and iron. Role of radiation and cancer on gene polymorphism)