MicroRNA-148b secreted by bovine oviductal extracellular vesicles enhance embryo quality through BPM/TGF-beta pathway.

IF 4.3 2区 生物学 Q1 BIOLOGY
Karina Cañón-Beltrán, Yulia N Cajas, Vasileios Almpanis, Sandra Guisado Egido, Alfonso Gutierrez-Adan, Encina M González, Dimitrios Rizos
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引用次数: 0

Abstract

Background: Extracellular vesicles (EVs) and their cargoes, including MicroRNAs (miRNAs) play a crucial role in cell-to-cell communication. We previously demonstrated the upregulation of bta-mir-148b in EVs from oviductal fluid of cyclic cows. This miRNA is linked to the TGF-β pathway in the cell proliferation. Our aim was to verify whether miR-148b is taken up by embryos through gymnosis, validate its target genes, and investigate the effect of miR-148b supplementation on early embryo development and quality.

Methods: Zygotes were cultured in SOF + 0.3% BSA (Control) or supplemented with: 1 µM miR-148b mimics during: D1-D7 (miR148b) or D1-D4 (miR148b-OV: representing miRNA effect in the oviduct) or D4-D7 (miR148b-UT: representing miRNA effect in the uterus) or 1 µM control mimics was used during: D1-D7 (CMimic). Embryos at ≥ 16-cells and D7 blastocysts (BD7) were collected to examine the mRNA abundance of transcripts linked to the TGF-β pathway (TGFBR2, SMAD1, SMAD2, SMAD3, SMAD5, BMPR2, RPS6KB1, POU5F1, NANOG), total cell number (TC), trophectoderm (TE), and inner cell mass (ICM) were also evaluated. One-way ANOVA was used for all analyses.

Results: We demonstrated that miR-148b can be taken up in both 16-cell embryos and BD7 by gymnosis, and we observed a decrease in SMAD5 mRNA, suggesting it's a potential target of miR-148b. Cleavage and blastocysts rates were not affected in any groups; however, supplementation of miR-148b mimics had a positive effect on TC, TE and ICM, with values of 136.4 ± 1.6, 92.5 ± 0.9, 43.9 ± 1.3 for miR148b and 135.3 ± 1.5, 92.6 ± 1.2, 42.7 ± 0.8, for miR148b-OV group. Furthermore, mRNA transcripts of SMAD1 and SMAD5 were decreased (P ≤ 0.001) in 16-cell embryos and BD7 from miR148b and miR148b-OV groups, while POU5F1 and NANOG were upregulated (P ≤ 0.001) in BD7 and TGFBR2 was only downregulated in 16-cell embryos. pSMAD1/5 levels were higher in the miR148b and miR148b-OV groups.

Conclusions: Our findings suggest that supplementation of bta-miR-148b mimics during the entire culture period (D1 - D7) or from D1 - D4 improves embryo quality and influences the TGF-β signaling pathway by altering the transcription of genes associated with cellular differentiation and proliferation. This highlights the importance of miR-148b on embryo quality and development.

牛输卵管细胞外囊泡分泌的 MicroRNA-148b 通过 BPM/TGF-beta 途径提高胚胎质量。
背景:细胞外囊泡(EVs)及其载体,包括微RNAs(miRNAs),在细胞间通讯中发挥着至关重要的作用。我们以前曾证实,在周期性奶牛输卵管液的 EVs 中,bta-mir-148b 上调。这种 miRNA 与细胞增殖过程中的 TGF-β 通路有关。我们的目的是验证miR-148b是否通过体细胞形成被胚胎吸收,验证其靶基因,并研究补充miR-148b对早期胚胎发育和质量的影响:在 SOF + 0.3% BSA(对照组)或补充 1 µM miR-148b 的 SOF + 0.3% BSA(对照组)中培养小胚胎:1 µM miR-148b模拟物:D1-D7(miR148b)或 D1-D4(miR148b-OV:代表 miRNA 在输卵管中的作用)或 D4-D7(miR148b-UT:代表 miRNA 在子宫中的作用),或在 D1-D7 期间使用 1 µM 对照模拟物(CMimic):D1-D7(CMimic)。收集≥ 16 个细胞的胚胎和 D7 囊胚(BD7),检测与 TGF-β 通路相关的转录本(TGFBR2、SMAD1、SMAD2、SMAD3、SMAD5、BMPR2、RPS6KB1、POU5F1、NANOG)的 mRNA 丰度,还评估了细胞总数(TC)、滋养层(TE)和内细胞团(ICM)。所有分析均采用单因素方差分析:结果:我们证实,miR-148b可在16细胞胚胎和BD7中被体细胞吞噬,而且我们观察到SMAD5 mRNA减少,这表明它是miR-148b的一个潜在靶标。然而,补充 miR-148b 模拟物对 TC、TE 和 ICM 有积极影响,miR148b 组为 136.4 ± 1.6、92.5 ± 0.9、43.9 ± 1.3,miR148b-OV 组为 135.3 ± 1.5、92.6 ± 1.2、42.7 ± 0.8。此外,在 miR148b 组和 miR148b-OV 组的 16 细胞胚胎和 BD7 中,SMAD1 和 SMAD5 的 mRNA 转录物降低(P ≤ 0.001),而在 BD7 中,POU5F1 和 NANOG 上调(P ≤ 0.001),TGFBR2 仅在 16 细胞胚胎中下调,pSMAD1/5 水平在 miR148b 组和 miR148b-OV 组中较高:我们的研究结果表明,在整个培养期(D1 - D7)或从 D1 - D4 补充 bta-miR-148b 模拟物可提高胚胎质量,并通过改变与细胞分化和增殖相关的基因转录影响 TGF-β 信号通路。这突显了 miR-148b 对胚胎质量和发育的重要性。
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来源期刊
Biological Research
Biological Research 生物-生物学
CiteScore
10.10
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: Biological Research is an open access, peer-reviewed journal that encompasses diverse fields of experimental biology, such as biochemistry, bioinformatics, biotechnology, cell biology, cancer, chemical biology, developmental biology, evolutionary biology, genetics, genomics, immunology, marine biology, microbiology, molecular biology, neuroscience, plant biology, physiology, stem cell research, structural biology and systems biology.
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