在体外培养过程中,褪黑素通过不同的机制控制氧化应激和原始卵泡的激活和存活

IF 1.9 2区 农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Bianca R. Silva , Francisco C. Costa , Miguel F. De Lima Neto , Francisco F. Caetano Filho , Ernando I.T. de Assis , Francisco L.N. Aguiar , Anderson W.B. Silva , Solano D. Martins , Valdevane R. Araújo , Maria H.T. Matos , José J.N. Costa , José R.V. Silva
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引用次数: 0

摘要

本研究旨在探讨褪黑素对胃窦前卵泡活化和存活、基质细胞密度和细胞外基质(ECM)胶原分布的影响及其作用机制。褪黑激素受体和mTORC1通路在这些过程中的参与也进行了研究。为此,卵巢碎片在α‐MEM+中单独培养6天,或补充1000 pM褪黑激素,1000 pM褪黑激素与1000 pM luzindole(褪黑激素受体抑制剂),或1000 pM褪黑激素与0.16µg/ml雷帕霉素(mTORC1抑制剂)。在培养期结束时,对组织进行经典组织学处理,将卵泡分为正常卵泡和退化卵泡,以及原始卵泡和生长卵泡。测定卵巢间质细胞密度和ECM胶原分布。同时测定卵巢组织中CAT、SOD、GPX1和PRDX1的硫醇水平和mRNA水平,以及抗氧化酶CAT、SOD和GPX1的活性。结果表明,与对照培养基(α‐MEM+)相比,褪黑素、褪黑素与luzindole或褪黑素与雷帕霉素联合培养的卵巢组织中卵泡形态正常的比例显著提高。然而,无论是卢津多尔还是雷帕霉素的存在,都不能阻断褪黑素对卵泡存活的积极作用(P >0.05)。虽然培养基中褪黑激素的存在降低了原始卵泡的百分比,增加了发育卵泡的百分比,但褪黑激素的这些积极作用被卢津多或雷帕霉素阻断(P <0.05)。褪黑素、褪黑素与卢津多或褪黑素与雷帕霉素均不影响卵巢间质细胞的数量。相反,褪黑素显著增加卵巢组织中胶原蛋白的百分比,但褪黑素的积极作用被卢津多或雷帕霉素阻断。与对照培养基中培养的组织相比,褪黑素和雷帕霉素培养的组织具有较高的CAT mRNA水平和较低的GPx活性。综上所述,褪黑素通过其膜偶联受体和mTORC1促进体外培养牛卵巢组织ECM中原始卵泡活化,增加胶原纤维。相反,褪黑素通过其他途径提高卵泡存活率,因为它可以穿过细胞膜,直接调节氧化应激。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Melatonin acts through different mechanisms to control oxidative stress and primordial follicle activation and survival during in vitro culture of bovine ovarian tissue

This study aims to evaluate the effects of melatonin and its mechanisms of action on preantral follicle activation and survival, stromal cell density and collagen distribution in extracellular matrix (ECM). The involvement of melatonin receptors and mTORC1 pathway in these procedures were also investigated. To this end, ovarian fragments were cultured for six days in α‐MEM+ alone or supplemented with 1000 pM melatonin, 1000 pM melatonin with 1000 pM luzindole (inhibitor of melatonin receptors), or 1000 pM melatonin with 0.16 µg/ml rapamycin (mTORC1 inhibitor). At the end of culture period, tissues were processed for classical histology, and the follicles were classified as normal or degenerated, as well as in primordial or growing follicles. The ovarian stromal cell density and ECM collagen distribution were also evaluated. Samples of ovarian tissues were also destined to measure the levels of thiol and mRNA for CAT, SOD, GPX1 and PRDX1, as well as the activity of antioxidant enzymes CAT, SOD, and GPX1. The results demonstrated that ovarian tissues cultured with melatonin, melatonin with luzindole or melatonin with rapamycin had significantly higher percentage of morphologically normal follicles than those cultured in control medium (α‐MEM+). However, the presence of either luzindole or rapamycin, did not block the positive effects of melatonin on follicle survival (P > 0.05). Although the presence of melatonin in culture medium reduced the percentage of primordial follicles and increased the percentage of development follicles, these positive effects of melatonin were blocked by either luzindole or rapamycin (P < 0.05). Melatonin, melatonin with luzindole or melatonin with rapamycin did not influence the number of ovarian stromal cells. In contrast, melatonin significantly increased the percentages of collagen in ovarian tissues, but the positive effects of melatonin were blocked by either luzindole or rapamycin. Tissues cultured with melatonin and rapamycin had higher levels of mRNA for CAT and lower GPx activity when compared to those cultured in control medium. In conclusion, melatonin promotes primordial follicle activation, increases collagen fiber in ECM of in vitro cultured bovine ovarian tissue through its membrane-coupled receptors and mTORC1. Oppositely, melatonin increase follicles survival by acting through other pathways, since it can pass through cell membranes and directly regulate oxidative stress.

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来源期刊
Domestic animal endocrinology
Domestic animal endocrinology 农林科学-奶制品与动物科学
CiteScore
5.50
自引率
4.80%
发文量
58
审稿时长
31 days
期刊介绍: Domestic Animal Endocrinology publishes scientific papers dealing with the study of the endocrine physiology of domestic animal species. Those manuscripts utilizing other species as models for clinical or production problems associated with domestic animals are also welcome. Topics covered include: Classical and reproductive endocrinology- Clinical and applied endocrinology- Regulation of hormone secretion- Hormone action- Molecular biology- Cytokines- Growth factors
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