Laboratory of Spermatozoa Biology, Department of Animal Reproduction, School of Veterinary Medicine and Animal Science, University of Sao Paulo, Sao Paulo, Brazil.
Department of Pharmacology, Laboratory of Phytomedicines, Pharmacology and Biotechnology, Institute of Biosciences, University of São Paulo State (Unesp), Botucatu, São Paulo, Brazil.
Theriogenology. 2022 Jan 15;178:30-39. doi: 10.1016/j.theriogenology.2021.10.027. Epub 2021 Nov 3.
The use of different sires influences in vitro embryo production (IVP) outcome. Paternal effects are observed from the first cleavages until after embryonic genome activation (EGA). Little is known about the mechanisms that promote in vitro fertility differences, even less about the consequences on embryo development. Therefore, this study aimed to evaluate the paternal effect at fertilization, embryo developmental kinetics, gene expression and quality from high and low in vitro fertility bulls. A retrospective analysis for bull selection was performed using the In vitro Brazil company database from 2012 to 2015. The dataset was edited employing cleavage and blastocyst rates ranking a total of 140 bulls. Subsequently, the dataset was restricted by embryo development rate (blastocyst/cleaved rate) and ten bulls were selected as high (HF; n = 5) and low (LF; n = 5) in vitro fertility groups. IVP embryos derived from high and low fertility bulls were classified according to their stage of development (2 cells, 3-4 cells, 6 cells, 8-16 cells), at 24, 36, 48, 60, 72 hpi, respectively, to evaluate embryo kinetics. Pronuclei formation (24 hpi), cleavage rate (Day 3), development rate, and blastocyst morphology (Grade I and II - Day 7) were also assessed, as well as the abundance of 96 transcripts at 8-16 cell stage and blastocysts. There was no difference in early embryo kinetics (P > 0.05), and cleavage rate (HF = 86.7%; LF = 84.9%; P = 0.25). Nevertheless, the fertilization rate was higher on HF (72%) than LF (62%) and the polyspermy rate was lower on HF compared to LF (HF:16.2% LF:29.2%). As expected, blastocyst rate (HF = 29.4%; LF = 16.0%; P < 0.0001) and development rate (HF = 33.9% LF = 18.9%; P < 0.0001) were higher in HF than LF. At the 8-16 cell stage, 22 transcripts were differentially represented (P ≤ 0.05) between the two groups. Only PGK1 and TFAM levels were higher in HF while transcripts related to stress (6/22, ∼27%), cell proliferation (6/22, ∼27%), lipid metabolism genes (5/22, ∼23%), and other cellular functions (5/22, ∼23%) were higher on LF embryos. Blastocysts had 9 differentially represented transcripts (P ≤ 0.05); being only ACSL3 and ELOV1 higher in the HF group. Lipid metabolism genes (3/9, 33%) and other cellular functions (6/9, 67%) were higher in the LF group. In conclusion, the timing of the first cleavages is not affected by in vitro bull fertility. However, low in vitro fertility bulls presented higher polyspermy rates and produced 8-16 cells embryos with higher levels of transcripts related to apoptosis and cell damage pathways compared to high in vitro fertility ones. Evidence such as polyspermy and increase in apoptotic and oxidative stress genes at the EGA stage suggest that embryo development is impaired in the LF group leading to the reduction of blastocyst rate.
不同种公牛的使用会影响体外胚胎生产(IVP)的结果。从第一次卵裂到胚胎基因组激活(EGA)后,都可以观察到父本效应。虽然人们对促进体外生育力差异的机制知之甚少,更不用说对胚胎发育的影响了。因此,本研究旨在评估高、低体外生育力公牛在受精、胚胎发育动力学、基因表达和质量方面的父本效应。使用 In vitro Brazil 公司 2012 年至 2015 年的数据库对公牛进行了回顾性选择分析。通过卵裂和囊胚率对数据集进行了编辑,共对 140 头公牛进行了排名。随后,根据胚胎发育率(囊胚/卵裂率)对数据集进行了限制,选择了 10 头公牛作为高(HF;n=5)和低(LF;n=5)体外生育力组。根据其发育阶段(2 细胞、3-4 细胞、6 细胞、8-16 细胞)将来自高和低生育力公牛的 IVP 胚胎分类,分别在 24、36、48、60、72 hpi 评估胚胎动力学。还评估了原核形成(24 hpi)、卵裂率(第 3 天)、发育率和囊胚形态(第 7 天的 I 级和 II 级),以及 8-16 细胞阶段和囊胚的 96 个转录本的丰度。早期胚胎动力学(P>0.05)和卵裂率(HF=86.7%;LF=84.9%;P=0.25)无差异。然而,HF 的受精率较高(72%),LF 的受精率较低(62%),HF 的多精率较低(HF:16.2% LF:29.2%)。如预期的那样,HF 的囊胚率(HF=29.4%;LF=16.0%;P<0.0001)和发育率(HF=33.9% LF=18.9%;P<0.0001)均高于 LF。在 8-16 细胞阶段,两组之间有 22 个转录本存在差异(P≤0.05)。HF 中 PGK1 和 TFAM 水平较高,而 LF 中与应激(6/22,约 27%)、细胞增殖(6/22,约 27%)、脂质代谢基因(5/22,约 23%)和其他细胞功能(5/22,约 23%)相关的转录本水平较高。囊胚有 9 个差异表达的转录本(P≤0.05);只有 ACSL3 和 ELOV1 在 HF 组中较高。脂质代谢基因(3/9,33%)和其他细胞功能(6/9,67%)在 LF 组中较高。总之,第一次卵裂的时间不受体外公牛生育力的影响。然而,与高体外生育力公牛相比,低体外生育力公牛的多精率较高,产生的 8-16 细胞胚胎中与凋亡和细胞损伤途径相关的转录本水平较高。EGA 阶段多精和凋亡及氧化应激基因增加的证据表明,LF 组胚胎发育受损,导致囊胚率降低。
