Prediction of ovarian aging using ovarian expression of BMP15, GDF9, and C-KIT

This study investigated ovarian expressions of bone morphogenetic protein 15 (BMP15), growth differentiation factor 9 (GDF9), and C-KIT according to age in female mice to determine whether these factors can be served as new potential biomarkers of ovarian aging. Ovaries were collected from mice aged 10, 20, 30, and 40 weeks, and ovarian expressions of BMP15, GDF9, and C-KIT were examined by real-time PCR, Western blot, and immunohistochemistry. Follicle counts were measured on histological hematoxylin and eosin staining. In the second experiment to evaluate ovarian function, after superovulation with PMSG and hCG, the numbers of zygotes retrieved and embryo development rate were examined. Ovarian expressions of BMP15, GDF9, and C-KIT decreased with age. Follicle counts, numbers of retrieved zygotes, and embryo development rate were also significantly reduced in old mice over 30 weeks compared with young mice. These results indicate that these factors could be served as new potential biomarkers of ovarian aging. Impact statement Ovarian aging is becoming a more important issue in terms of fertility preservation and infertility treatment. Serum anti-Mullerian hormone (AMH) level and antral follicle count (AFC) are being practically used as markers of ovarian aging as well as ovarian reserve in human. However, these factors have some drawbacks in assessing ovarian aging and reserve. Therefore, the identification of ovarian expressions of BMP15, GDF9, and C-KIT according to female could be applied as a potent predictor of ovarian aging. This work provides new information on the development of diagnosis and treatment strategy of age-related fertility decline and premature ovarian insufficiency.

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A Nuclear and Cytoplasmic Characterization of Bovine Oocytes Reveals That Cysteamine Partially Rescues the Embryo Development in a Model of Low Ovarian Reserve

Animals ◽

10.3390/ani11071936 ◽

2021 ◽

Vol 11 (7) ◽

pp. 1936

Author(s):

Valentina Lodde ◽

Alberto Maria Luciano ◽

Giulia Musmeci ◽

Ileana Miclea ◽

Irene Tessaro ◽

...

Keyword(s):

Embryo Development ◽

Positive Impact ◽

Antral Follicle ◽

Oocyte Quality ◽

Antral Follicle Count ◽

Culture Conditions ◽

Free Radical Scavenger ◽

Radical Scavenger ◽

Ovarian Aging

Decreased oocyte quality is a major determinant of age-associated fertility decline. Similarly, individuals affected by early ovarian aging carry low-quality oocytes. Using an established bovine model of early ovarian aging, we investigated key features of ‘quality’ oocyte maturation, associated with the onset of egg aneuploidy and reproductive aging, such as histone modifications, mitochondria distribution and activity, reduced glutathione (GSH) content, and gap junction functionality. Bovine ovaries were classified according to the antral follicle count (AFC), and the retrieved oocytes were processed immediately or matured in vitro. We observed alterations in several cellular processes, suggesting a multifactorial etiology of the reduced oocyte quality. Furthermore, we performed a rescue experiment for one of the parameters considered. By adding cysteamine to the maturation medium, we experimentally increased the free radical scavenger ability of the ‘low competence’ oocytes and obtained a higher embryo development. Our findings show that adopting culture conditions that counteract the free radicals has a positive impact on the quality of ‘compromised’ oocytes. Specifically, cysteamine treatment seems to be a promising option for treating aging-related deficiencies in embryo development.

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Effects of Coenzyme Q10 on Ovarian Surface Epithelium-derived Ovarian Stem Cells and Ovarian Function in 4-vinylcyclohexene Diepoxide-induced Ovarian Failure Mice.

10.21203/rs.3.rs-147702/v1 ◽

2021 ◽

Author(s):

Hyun Joo Lee ◽

Min Jung Park ◽

Bo Sun Joo ◽

Jong Kil Joo ◽

Yeon Hee Kim ◽

...

Keyword(s):

Stem Cells ◽

Embryo Development ◽

Ovarian Function ◽

Ovarian Surface Epithelium ◽

Ovarian Failure ◽

Development Rate ◽

Surface Epithelium ◽

Vinylcyclohexene Diepoxide ◽

Ovarian Aging ◽

Ovarian Stem Cells

Abstract Background: Several studies have shown that CoQ10 can rescue ovarian aging and that ovarian surface epithelium (OSE)-derived ovarian stem cells (OSCs) are useful for treating infertility with ovarian aging. However, there are few studies the effect of CoQ10 on OSCs. This study was aimed to investigate whether CoQ10 activates OSCs while recovering ovarian function using 4-vinylcyclohexene diepoxide (VCD)-induced ovarian failure mouse model.Methods: C57BL/6 female mice aged 6 weeks were randomly divided into four groups (n=10/group): (Control) saline and orally, (CoQ10) 150 mg/kg/day orally in 1 mL of saline daily for 14 days, (VCD) 160 mg/kg/day, 2.5 ml/kg ip for 5 days, (VCD+CoQ10) 5 days after VCD injection, CoQ10 (150 mg/kg/day) orally for 14 days. After final treatment of CoQ10, follicle counts were evaluated by hematoxylin and eosin (H&E) staining, and ovarian mRNA expressions of Bmp-15, Gdf-9, and c-Kit were examined by quantitative real-time PCR. Serum FSH, AMH, and ROS levels were also measured. Oocyte-like structure count and expression of Oct-4 and MVH were evaluated from postcultured OSE for 3 weeks. In the second experiment, another 32 female mice were administered with CoQ10 in the same way as above and were superovulated by PMSG and hCG, followed by mated with males. Then, numbers of zygotes ovulated and embryo development rate were examined. Results: Postcultured OSE had significantly increased numbers of oocyte-like structure and expression of Oct-4 and MVH in VCD+CoQ10 group compared to VCD group (p <0.05). Numbers of surviving follicles including from primordial to antral follicles, numbers of zygotes retrieved and embryo development rate to blastocyst were significantly higher in VCD+CoQ10 group compared to VCD group (p <0.01). Serum AMH level and ovarian expression of Bmp-15, Gdf-9, and c-Kit were significantly increased in VCD+CoQ10 group compared to VCD group (p <0.05). In contrast, serum ROS level was significantly decreased in VCD+CoQ10 group compared to VCD group (p <0.05). Conclusion(s): This is the first study to show that CoQ10 stimulates the differentiation of OSE-derived OSCs. Also this study confirms that CoQ10 can reduce ROS levels, leading to improve ovarian function and oocyte quality in ovarian failure mice.

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