Long-term effects of repeated superovulation on ovarian structure and function in rhesus monkeys

Long-term effects of repeated superovulation on ovarian structure and function in rhesus monkeys

Objective To assess the long-term effects of repeated controlled ovarian hyperstimulation (COH) on ovarian structure and function. Design Experimental study. Setting Laboratory. Animal(s) Adult female rhesus macaques. Intervention(s) A repeated COH rhesus macaque model (superovulation group) with sp...

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Published in:Fertility and sterility Vol. 102; no. 5; pp. 1452 - 1457.e1
Main Authors: Dong, Guoying, B.S, Guo, Yueshuai, B.S, Cao, Huarong, B.S, Zhou, Tao, B.S, Zhou, Zuomin, Ph.D, Sha, Jiahao, Ph.D, Guo, Xuejiang, Ph.D, Zhu, Hui, Ph.D
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-11-2014
Subjects:
Animals
Controlled ovarian stimulation
Female
Gonadal Steroid Hormones - blood
Internal Medicine
Longitudinal Studies
Macaca mulatta
Obstetrics and Gynecology
Oocytes - cytology
ovarian follicular structure
Ovary - cytology
Ovary - metabolism
Proteome - metabolism
proteomics
rhesus macaques
superovulation
Superovulation - blood
Superovulation - physiology
Controlled ovarian stimulation
ovarian follicular structure
proteomics
rhesus macaques
superovulation
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Summary:Objective To assess the long-term effects of repeated controlled ovarian hyperstimulation (COH) on ovarian structure and function. Design Experimental study. Setting Laboratory. Animal(s) Adult female rhesus macaques. Intervention(s) A repeated COH rhesus macaque model (superovulation group) with spontaneously ovulating macaques used as controls (normal group) and samples of serum and ovarian tissue collected over a 5-year period. Main Outcome Measure(s) Steroid hormone levels, and structural, functional, and protein changes in ovaries. Result(s) The follicular histology, proportion of follicles at each developmental stage, and expression levels of oocyte-specific genes showed no statistically significant differences between the two groups. However, the superovulation group exhibited mitochondrial abnormalities in the granulosa cells and a low expression of genes involved in steroid hormone synthesis compared with the normal group. A comparison of protein expression in the ovaries of both groups using tandem mass tag labeling with mass spectrometry revealed that most of the differentially-expressed proteins were down-regulated in the superovulation group. These proteins were mainly localized in the mitochondria and cytosol, and changes in protein levels in the superovulation group mainly inhibited cell proliferation and differentiation but promoted apoptosis. Conclusion(s) Our study indicates that repeated COH could change the expression of many proteins in the ovaries even after several years, potentially affecting the development and function of ovarian cells.
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ISSN:0015-0282
1556-5653
DOI:10.1016/j.fertnstert.2014.07.739