Chemical activation of mammalian oocytes and its application in camelid reproductive biotechnologies: A review

IF 2.2 2区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Dionet Keny Bellido-Quispe , Irving Mitchell Laines Arcce , César Augusto Pinzón-Osorio , Vinicius Farias Campos , Mariana Härter Remião
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Abstract

Mammalian oocyte activation is a critical process occurring post-gamete fusion, marked by a sequence of cellular events initiated by an upsurge in intracellular Ca2+. This surge in calcium orchestrates the activation/deactivation of specific kinases, leading to the subsequent inactivation of MPF and MAPK activities, alongside PKC activation. Despite various attempts to induce artificial activation using distinct chemical compounds as Ca2+ inducers and/or Ca2+-independent agents, the outcomes have proven suboptimal. Notably, incomplete suppression of MPF and MAPK activities persists, necessitating a combination of different agents for enhanced efficiency. Moreover, the inherent specificity of activation methods for each species precludes straightforward extrapolation between them. Consequently, optimization of protocols for each species and for each technique, such as PA, ICSI, and SCNT, is required. Despite recent strides in camelid biotechnologies, the field has seen little advancement in chemical activation methods. Only a limited number of chemical agents have been explored, and the effects of many remain unknown. In ICSI, despite obtaining blastocysts with different chemical compounds that induce Ca2+ and calcium-independent increases, viable offspring have not been obtained. However, SCNT has exhibited varying outcomes, successfully yielding viable offspring with a reduced number of chemical activators. This article comprehensively reviews the current understanding of the physiological activation of oocytes and the molecular mechanisms underlying chemical activation in mammals. The aim is to transfer and apply this knowledge to camelid reproductive biotechnologies, with emphasis on chemical activation in PA, ICSI, and SCNT.

Abstract Image

哺乳动物卵母细胞的化学激活及其在驼科动物生殖生物技术中的应用:综述
哺乳动物卵母细胞活化是配子融合后发生的一个关键过程,以细胞内 Ca2+ 激增引发的一系列细胞事件为标志。钙离子的激增会协调特定激酶的激活/失活,导致随后的 MPF 和 MAPK 活性失活以及 PKC 激活。尽管有人尝试使用不同的化学物质作为 Ca2+ 诱导剂和/或 Ca2+ 非依赖性制剂来诱导人工激活,但结果证明并不理想。值得注意的是,对 MPF 和 MAPK 活性的不完全抑制依然存在,因此需要结合使用不同的制剂来提高效率。此外,每个物种的活化方法都有其固有的特异性,因此无法在它们之间进行直接推断。因此,需要针对每个物种和每种技术(如 PA、ICSI 和 SCNT)优化方案。尽管近年来驼科动物生物技术取得了长足进步,但该领域的化学活化方法进展甚微。只有有限的几种化学制剂得到了探索,而且许多化学制剂的效果仍然未知。在卵胞浆内单精子显微注射(ICSI)中,尽管使用不同的化学物质诱导 Ca2+ 和钙依赖性增加,但仍未获得可存活的后代。然而,SCNT 则表现出不同的结果,在使用较少化学激活剂的情况下,也能成功获得可存活的后代。本文全面回顾了目前对哺乳动物卵母细胞生理激活和化学激活分子机制的理解。目的是将这些知识转移并应用到驼科动物的生殖生物技术中,重点是PA、ICSI和SCNT中的化学激活。
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来源期刊
Animal Reproduction Science
Animal Reproduction Science 农林科学-奶制品与动物科学
CiteScore
4.50
自引率
9.10%
发文量
136
审稿时长
54 days
期刊介绍: Animal Reproduction Science publishes results from studies relating to reproduction and fertility in animals. This includes both fundamental research and applied studies, including management practices that increase our understanding of the biology and manipulation of reproduction. Manuscripts should go into depth in the mechanisms involved in the research reported, rather than a give a mere description of findings. The focus is on animals that are useful to humans including food- and fibre-producing; companion/recreational; captive; and endangered species including zoo animals, but excluding laboratory animals unless the results of the study provide new information that impacts the basic understanding of the biology or manipulation of reproduction. The journal''s scope includes the study of reproductive physiology and endocrinology, reproductive cycles, natural and artificial control of reproduction, preservation and use of gametes and embryos, pregnancy and parturition, infertility and sterility, diagnostic and therapeutic techniques. The Editorial Board of Animal Reproduction Science has decided not to publish papers in which there is an exclusive examination of the in vitro development of oocytes and embryos; however, there will be consideration of papers that include in vitro studies where the source of the oocytes and/or development of the embryos beyond the blastocyst stage is part of the experimental design.
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