Mitochondria is energy generating organelle. It synthesizes ATP, which is the essential energy source of many cellular processes. During producing energy, some redox centres leak electrons to oxygen and it is contributory to the reactive oxygen species. Besides, mitochondria have significant functions in metabolism, calcium homeostasis, and fatty acid oxidation. Also mitochondria has importance to the breakdown of the ovarian follicles and could be factor determining oocyte of quality adversely. Increasing evidence shows that the number of mitochondria affect oocyte of developmental competence and maturation detrimentally during aging. Oocyte is the mitochondria-rich cell and enable the organelle to have competence for fertilization and early embryonic development. Occurrence of blastomere depends on distribution change of mitochondria which present in the egg. Lonicera caerulea treatment inhibited ovarian mitochondrial oxidative damage by suppressing mitochondrial reactive oxygen species (mROS) generation, decreasing apoptosis, controlling disintegration of mitochondrial membrane potential and conserving respiratory chain complex activities. The purpose of this study is to identify if mouse accepting treatment with L. caerulea could counter age-induced sterility and ovarian mitochondrial OS in a model organism of ovarian ageing.

Sex hormones including progesterons, androgens, and estrogens are influential in differentiation of ovarian tissues and competence of fertility. These steroid hormones derived from cholesterol are required for cumulus-oocyte complexes(COCs) during oocyte maturation. COCs is a total functional and active entity playing a central role in oocyte. Lipid metabolism in the mammalian COCs is controlled by environmental factors. The intracellular cholesterol contents go through remarkable changes. It plays an important part of oocyte developmental competence. However, heat stress affects steroid hormone by decreasing progesterone, estrogen concentrations, and resumption of meiosis in COCs maturation. Reduction of the hormone and meiotic resumption might lead to the decline of ovarian function, follicle maturation, and subsequent embryogenesis. In the same vein, heat stress also influence on germinal vesicle breakdown, lipolytic variations, and loss of the nuclear envelope in the course of maturation of oocytes. In summary, we examined the effects of thermal stress on oocyte maturation through steroid hormone contents of change identifying the molecular mechanisms of lipids metabolism. It may have the solution to further the therapy methods for disorders regarding sterility.

Mammalian oocytes are sensitive to psychological stress at each period of follicular development. Especially, thermal stress interfere with reproductive condition by inducing formation of reactive oxygen species (ROS) and oxidative stress (OS). ROS lead to oocyte apoptosis, weakening oocyte quality and lowering the fertilization rate. As a result, the pregnancy rate is lowered, leading to infertility. Thermal stress also seems to influence zygotes through physiological changes in the maternal environment surrounding them. Loss of developmental competence suggests hyperthermia-induced oxidative stress in embryos. Interest in organic Lonicera caerulea berries has increased in recent years. They are abundant in various health-improving materials. Berries that found from natural products can be as free as possible from the bioactive toxicity of the active ingredient without side effects, and it can be a big advantage because it can work. Mammalian oocytes are arrested at the first meiotic prophase stage and get their meiotic competence to produce offspring during the development of follicle. A series of nuclear and cytoplasmic maturations are involved in this process and these vary in temperature sensitivity. Our study demonstrated that L. caerulea can relieve the negative effects of maternal hyperthermia by reducing ROS level at the developmental stage.