Apoptosis of granulosa cells affects follicular atresia and reproduction and is regulated by miRNAs and the expression of certain genes. For the present study, we investigated the regulatory relationship between microRNA‐222 (miR‐222) and THBS1 in porcine follicular granulosa cells (pGCs) and its effects on apoptosis to provide empirical data for developing methods to improve pig fecundity. Results revealed that miR‐222 promotes the proliferation of pGCs. MiRNA mimics and luciferase reporter assays revealed that miR‐222 functions as an anti‐apoptotic factor in pGCs. MiR‐222 mimics in pGCs result in the upregulation of the anti‐apoptotic BCL‐2 gene, down‐regulation of the proapoptotic caspase‐3 gene, and inhibition of apoptosis. MiR‐222 inhibitors reduced BCL‐2 and had no significant effect on caspase‐3. MiR‐222 mimics promoted estrogen levels. Inhibition of THBS1 inhibited pGC apoptosis. Transfection of THBS1‐siRNA reduced the proapoptotic BAX gene. MiR‐222 can directly target the 3′‐untranslated region of the THBS1 gene. MiR‐222 mimics suppressed THBS1 mRNA and proteins, but these were upregulated by the miR‐222 inhibitor. Transfection of THBS1‐siRNA resulted in the inhibition of the miR‐222 inhibitor, which suggests that miR‐222 inhibits pGC apoptosis by targeting THBS1. These findings suggest that miR‐222 and THBS1 play important roles in follicular atresia, ovarian development, and female reproduction.
Objective: Apoptosis of ovarian granulosa cells (GCs) affects mammalian follicular development and fecundity. This study aimed to explore the regulatory relationship between microRNA-26a (miR-26a) and the 3β-hydroxysteroid-Δ24-reductase gene (<i>DHCR24</i>) gene in porcine follicular granular cells (pGCs), and to provide empirical data for the development of methods to improve the reproductive capacity of pigs.Methods: The pGCs were transfected with miR-26a mimic, miR-26a inhibitor and <i>DHCR24</i>-siRNA <i>in vitro</i>. The cell apoptosis rate of pGCs was detected by the flow cytometry. The secretion levels of estradiol (E2) and progesterone (P) in pGCs were detected by enzymelinked immunosorbent assay. Double luciferase validation system was used to detect the binding sites between miR-26a and <i>DHCR24</i> 3′-UTR region. Qualitative real-time polymerase chain reaction and Western blotting were used to verify the <i>DHCR24</i> mRNA and protein expression in pGCs, respectively, after transfecting with miR-26a mimic and miR-26a inhibitor.Results: Results showed that enhancement of miR-26a promoted apoptosis, and inhibited E2 and P secretion in pGCs. Meanwhile, inhibition of <i>DHCR24</i> also upregulated the Caspase-3 expression, reduced the BCL-2 expression, promoted pGCs apoptosis, and inhibited E2 and P secretion in pGCs. There were the binding sites of miR-26a located within <i>DHCR24</i> 3′-UTR. Up-regulation of miR-26a inhibited <i>DHCR24</i> mRNA and protein expression in pGCs.Conclusion: This study demonstrates that miR-26a can promote cell apoptosis and inhibit E2 and P secretion by inhibiting the expression of <i>DHCR24</i> in pGCs.
Litter size is one of the most important economic traits in pig production. Recent studies identified that deoxynivalenol (DON), a widespread toxin in fodder, was associated with animal prolificacy. However, the underlying mechanisms have not yet been completely elucidated. Here, we used porcine ovary granulosa cells (pGCs) as a vector to establish DON concentration–time models and performed cell morphology and transcriptome analysis to identify and analyse the effects of DON on reproductive performance in swine. The results showed that DON can induce morphological changes and apoptosis of pGCs, while inhibiting cell proliferation. Moreover, these effects of DON on pGCs were dose‐dependent. After treatment of pGCs with different concentrations of DON, the percentage of cells in S phase and G2/M phase increased. RNA‐seq analyses revealed 5,937 differentially expressed genes, of which 1995 were down‐regulated and 3,942 were up‐regulated after DON treatment. KEGG enrichment analysis indicated important metabolic pathways such as IL‐17 signalling pathway, eukaryotic ribosome synthesis pathway, RNA transport pathway and RNA degradation. Based on our results, we speculate that the effects of DON are related to the DNA damage process. Our study provides novel insights and a foundation to further understand the effect of DON on swine prolificacy.
The aim of this study was to explore the expression difference of miRNAs and mRNAs between the follicular phase (FP) and luteal phase (LP) in porcine ovaries and provide a theoretical basis for the research on mammalian reproductive regulation. RNA‐Seq and miRNA‐Seq were used to identify differentially expressed genes (DEGs) and miRNAs (DEMs) between the FP and LP in ovaries of six sows (3‐year‐old Yorkshire pigs with similar weights and same parities). Bioinformatic analysis was used to screen potential genes and miRNAs related to porcine ovarian function. Real‐time qualitative PCR was used to validate the sequencing results. RNA‐Seq results showed that 3,078 genes were up‐regulated, and 1,444 genes were down‐regulated in the LP compared with the FP, and DEGs were significantly enriched in 242 Gene Ontology (GO) terms and 33 Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways. miRNA‐Seq identified 112 DEMs, of which 25 were up‐regulated and 87 were down‐regulated in the LP compared with the FP. We obtained 186 intersection genes (IGs) between the 4,522 DEGs and 2,444 target genes predicted from the 112 DEMs. After constructing a miRNA‐gene‐pathway network, we identified key miRNAs and genes including miR‐17‐3p, miR‐214, miR‐221‐5p, miR‐125b, FGF1, YWHAG, YWHAZ, FDFT1 and DHCR24, which are enriched in Hippo and PI3K‐Akt signalling pathways, and various metabolic pathways. These results indicate that these key genes and miRNAs may play important roles in the developmental transition from FP to LP in porcine ovaries and represent candidate targets for further study.
Considering the physiological and clinical importance of leptin receptor (LEPR) in regulating obesity and the fact that porcine LEPR expression is not known to be controlled by lncRNAs and miRNAs, we aim to characterize this gene as a potential target of SSC-miR-323 and the lncRNA TCONS_00010987. Methods: Bioinformatics analyses revealed that lncRNA TCONS_00010987 and LEPR have SSC-miR-323-binding sites and that LEPR might be a target of lncRNA TCONS_00010987 based on cis prediction. Wild-type and mutant TCONS_00010987-target sequence fragments and wild-type and mutant LEPR 3′-UTR fragments were generated and cloned into pmiR-RB-REPORT TM-Control vectors to construct respective recombinant plasmids. HEK293T cells were co-transfected with the SSC-miR-323 mimics or a negative control with constructs harboring the corresponding binding sites and relative luciferase activities were determined. Tissue expression patterns of lncRNA TCONS_00010987, SSC-miR-323, and LEPR in Anqing six-end-white (AQ, the obese breed) and Large White (LW, the lean breed) pigs were detected by real-time quantitative polymerase chain reaction; backfat expression of LEPR protein was detected by western blotting. Results: Target gene fragments were successfully cloned, and the four recombinant vectors were constructed. Compared to the negative control, SSC-miR-323 mimics significantly inhibited luciferase activity from the wild-type TCONS_00010987-target sequence and wildtype LEPR-3′-UTR (p<0.01 for both) but not from the mutant TCONS_00010987-target sequence and mutant LEPR-3′-UTR (p>0.05 for both). Backfat expression levels of TCONS_ 00010987 and LEPR in AQ pigs were significantly higher than those in LW pigs (p<0.01), whereas levels of SSC-miR-323 in AQ pigs were significantly lower than those in LW pigs (p<0.05). LEPR protein levels in the backfat tissues of AQ pigs were markedly higher than those in LW pigs (p<0.01). Conclusion: LEPR is a potential target of SSC-miR-323, and TCONS_00010987 might act as a sponge for SSC-miR-323 to regulate LEPR expression.
Basic fi broblast growth factor (bFGF or FGF-2), a potent tumorigenic cytokine, improves cells proliferation and angiogenesis in tumor and also plays vital roles in tumor growth, metastasis as well as prognosis. Screening and application of effective cytokines against bFGF tumorigenic activity would be helpful to oncologic therapy. Myostatin, a member of transforming growth factor β superfamily, recently showed an antitumor activity and was reported to induce HeLa cells apoptosis through mitochondrion pathway. The above data raised our assumption that expression level of endogenous bFGF gene may be suppressed by exogenous myostatin in myostatin-treated HeLa cells. To test the hypothesis, myostatin was employed to stimulate HeLa cells and expressional level of endogenous bFGF gene in HeLa cells was detected with real-time RT-PCR and ELISA. Results of the suppressed expression level of bFGF gene in Hela cells implied that myostatin may be regarded as an effective cytokine against bFGF to treat certain cancers (Fig. 3, Ref. 26). Full Text in PDF www.elis.sk.
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