Beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damage
Mammalian gametes and embryos are particularly vulnerable to oxidative stress-induced damage, which is mainly caused by reactive oxygen species (ROS) originating from normal metabolism and/or the external environment. Several researchers have implicated the role of oxidative stress in the activation...
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doaj-11e62d0f113445c7940ed2d51d06b06a2021-06-08T04:39:58ZengElsevierJournal of Integrative Agriculture2095-31192018-10-01171023202335Beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damageYun-wei PANG0Xiao-long JIANG1Shan-jiang ZHAO2Zi-qiang HUANG3Hua-bin ZHU4PANG Yun-wei, Tel: +86-10-62815892; Embryo Biotechnology and Reproduction Laboratory, Institute of Animal Sciences, Chinese Academy of Agricultural Sciences, Beijing 100193, P. R. ChinaEmbryo Biotechnology and Reproduction Laboratory, Institute of Animal Sciences, Chinese Academy of Agricultural Sciences, Beijing 100193, P. R. ChinaEmbryo Biotechnology and Reproduction Laboratory, Institute of Animal Sciences, Chinese Academy of Agricultural Sciences, Beijing 100193, P. R. ChinaEmbryo Biotechnology and Reproduction Laboratory, Institute of Animal Sciences, Chinese Academy of Agricultural Sciences, Beijing 100193, P. R. ChinaCorrespondence ZHU Hua-bin, Tel: +86-10-62815892, Fax: +86-10-62815351; Embryo Biotechnology and Reproduction Laboratory, Institute of Animal Sciences, Chinese Academy of Agricultural Sciences, Beijing 100193, P. R. ChinaMammalian gametes and embryos are particularly vulnerable to oxidative stress-induced damage, which is mainly caused by reactive oxygen species (ROS) originating from normal metabolism and/or the external environment. Several researchers have implicated the role of oxidative stress in the activation of apoptosis, causing peroxidative damage to sperms/oocytes and inducing embryo fragmentation, arrest, or demise. Melatonin is a tryptophan derivative that is known for its powerful free radical-scavenging activity and broad-spectrum antioxidant property. Numerous studies have shown that melatonin and its metabolic derivatives can sequentially detoxify ROS in an antioxidant cascade, and modulate various antioxidant enzymes via its receptors to prevent radical-mediated damage. The identification of melatonin receptors in cumulus/granulosa cells, oocytes, and epididymal tissues implies that melatonin has protective actions on gametes and embryos. Enriching the semen extender or culture medium with melatonin significantly benefits sperm characteristics, improves oocyte maturation potential and quality, and enhances the developmental competence of preimplantation embryos. Certainly, further comparative studies are needed to show the unique antioxidant role and the advantage of melatonin in this field. This review summarizes the harmful effects of ROS and the beneficial role of melatonin against oxidative damage of gametes and embryos.http://www.sciencedirect.com/science/article/pii/S2095311918619422reactive oxygen speciesoxidative stressmelatoninspermoocyteembryo development |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Yun-wei PANG Xiao-long JIANG Shan-jiang ZHAO Zi-qiang HUANG Hua-bin ZHU |
spellingShingle |
Yun-wei PANG Xiao-long JIANG Shan-jiang ZHAO Zi-qiang HUANG Hua-bin ZHU Beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damage Journal of Integrative Agriculture reactive oxygen species oxidative stress melatonin sperm oocyte embryo development |
author_facet |
Yun-wei PANG Xiao-long JIANG Shan-jiang ZHAO Zi-qiang HUANG Hua-bin ZHU |
author_sort |
Yun-wei PANG |
title |
Beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damage |
title_short |
Beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damage |
title_full |
Beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damage |
title_fullStr |
Beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damage |
title_full_unstemmed |
Beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damage |
title_sort |
beneficial role of melatonin in protecting mammalian gametes and embryos from oxidative damage |
publisher |
Elsevier |
series |
Journal of Integrative Agriculture |
issn |
2095-3119 |
publishDate |
2018-10-01 |
description |
Mammalian gametes and embryos are particularly vulnerable to oxidative stress-induced damage, which is mainly caused by reactive oxygen species (ROS) originating from normal metabolism and/or the external environment. Several researchers have implicated the role of oxidative stress in the activation of apoptosis, causing peroxidative damage to sperms/oocytes and inducing embryo fragmentation, arrest, or demise. Melatonin is a tryptophan derivative that is known for its powerful free radical-scavenging activity and broad-spectrum antioxidant property. Numerous studies have shown that melatonin and its metabolic derivatives can sequentially detoxify ROS in an antioxidant cascade, and modulate various antioxidant enzymes via its receptors to prevent radical-mediated damage. The identification of melatonin receptors in cumulus/granulosa cells, oocytes, and epididymal tissues implies that melatonin has protective actions on gametes and embryos. Enriching the semen extender or culture medium with melatonin significantly benefits sperm characteristics, improves oocyte maturation potential and quality, and enhances the developmental competence of preimplantation embryos. Certainly, further comparative studies are needed to show the unique antioxidant role and the advantage of melatonin in this field. This review summarizes the harmful effects of ROS and the beneficial role of melatonin against oxidative damage of gametes and embryos. |
topic |
reactive oxygen species oxidative stress melatonin sperm oocyte embryo development |
url |
http://www.sciencedirect.com/science/article/pii/S2095311918619422 |
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