Background: Bone morphogenetic protein-15 (BMP15) is a maternal gene necessary for mammalian reproduction. BMP15 expression increased in oocytes accompanied by follicle growth and development. The function and regulation mechanism of BMP15 in porcine cumulus cell apoptosis process is still unclear now. Methods: In this study, flow cytometry (FCM) was used to analyze the effects of BMP15 with different concentrations to cumulus cell apoptosis. High-throughput sequencing technology was carried out to screen regulatory genes linked closely with BMP15. In order to confirm the function of (MCP-1)/CCL2 and FBN1 in cumulus cell apoptosis, RNA interference (RNAi) method was used to inhibit the expression of (MCP-1)/CCL2 and FBN1. Apoptosis and proliferation of cumulus cell treated with siRNA transfection technology were measured by FCM, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, quantitative real time-PCR (RT-qPCR) and western blotting. Results: The results showed that the apoptosis levels of cumulus cell treated by BMP15 decreased significantly in a dose-dependent manner. The expression of related genes protein 1 (MCP-1)/CCL2 and fibrillin1 (FBN1) were both regulated by BMP15. After transfection, the proliferation of porcine cumulus cells increased significantly and apoptosis of cumulus cells was prevented while FBN1 was silenced after BMP15 treatment. The proliferation of cumulus cells decreased significantly and apoptosis rate of cumulus cells increased significantly while CCL2 was silenced. Conclusion: The results obtained in this study firstly demonstrated that CCL2 and FBN1 are important regulatory factors of BMP15 in preventing cumulus cell apoptosis in porcine ovaries.
The differentiation of preadipocytes into adipose tissues is tightly regulated by various factors including miRNAs and cytokines. In this study, taking advantage of isolated porcine primary preadipocytes, we showed that ectopic expression of miR-375 could change preadipocyte differentiation. In addition, bone morphogenetic protein receptor 2 (BMPR2) was identified as a direct target of miR-375. Silencing BMPR2 had the same inhibition effects as overexpressing miR-375 on the preadipocyte differentiation. Together, we demonstrated that miR-375 is a negative regulator of adipogenic differentiation using porcine primary preadipocytes. These results clarified the role of miR-375 in ex vivo adipogenic differentiation.
Background: Adipocyte, the main cellular component of white adipose tissue, plays a vital role in energy balance in higher eukaryotes. In recent years, adipocytes have also been identified as a major endocrine organ involved in immunological responses, vascular diseases, and appetite regulation. In farm animals, fat content and categories are closely correlated with meat quality. MicroRNAs (miRNAs), a class of endogenous single-stranded non-coding RNA molecules, participate in the regulation of adipocyte differentiation and adipogenesis through regulating the transcription or translation of target mRNAs. MiR-378 plays an important role in a number of biological processes, including cell growth, cell differentiation, tumor cell survival and angiogenesis. Methods: In the present study, bioinformatics analysis and dual-luciferase reporter assay were used to identify and validate the target genes of miR-378. In vitro cell transfection, quantitative reverse transcription polymerase chain reaction (RT-qPCR), western blot analysis, Oil Red O staining, and triglyceride content measurement were conducted to analyze the effects of miR-378 on bovine preadipocyte differentiation. Results: MiR-378 was induced during adipocyte differentiation. In the differentiated adipocytes overexpressing miR-378, the volume of lipid droplets was enlarged, and the triglyceride content was increased. Moreover, the mRNA expression levels of the adipocyte differentiation marker genes, peroxisome proliferator-activated receptor gamma (PPARγ) and sterol regulatory element-binding protein (SREBP), were significantly elevated in the differentiated, mature adipocytes. In contrast, the mRNA expression level of preadipocyte factor 1 (Pref-1) was markedly reduced. E2F transcription factor 2 (E2F2) and Ras-related nuclear (RAN)-binding protein 10 (RANBP10) were the two target genes of miR-378. The mRNA expression levels of E2F2 and RANBP10 did not significantly change in bovine preadipocytes overexpressing miR-378. However, the protein expression levels of E2F2 and RANBP10 were markedly reduced. Conclusion: MiR-378 promoted the differentiation of bovine preadipocytes. E2F2 and RANBP10 were the two target genes of miR-378, and might involve in the effects of miR-378 on the bovine preadipocyte differentiation.
Background: MBD4 (methyl-CpG binding domain protein 4) is an important G: T glycosylase that can identify T-G mismatches. It plays a role in active demethylation through base excision repair. Overexpression of MBD4 gene can cause the demethylation of numerous genes, and the remethylation of MBD4-associated genes can occur when the MBD4 gene is knocked out. To date, the functions and regulatory mechanisms of the MBD4 gene in the differentiation of porcine preadipocytes have not been clearly established. Methods: Subcutaneous fat cells from 1- to 7-day-old Junmu-1 piglets were cultured in vitro, induced to differentiate, and then identified. A real-time fluorescence-based quantitative polymerase chain reaction (PCR) analysis was conducted to detect MBD4 messenger RNA (mRNA) expression. Cells were treated with MBD4-siRNA (small interfering RNA) and induced to differentiate. Changes in the lipid droplets were observed by oil red O staining. Changes in the mRNA and protein expression levels of MBD4 and the adipose differentiation-associated genes C/EBPα (CCAAT-enhancer-binding protein alpha), PPARγ (peroxisome proliferator-activated receptor gamma), and aP2 (adipocyte protein 2) were detected. In addition, the bisulfite sequencing method was used to detect changes in methylation in the promoters of certain genes associated with adipose differentiation. Results: Levels of MBD4 mRNA and protein expression varied with time over the course of the porcine adipocyte differentiation, with the highest levels of this expression observed on day two of the differentiation process. After silencing MBD4 and inducing differentiation, the production of lipid droplets decreased, the mRNA expression levels of C/EBPα, PPARγ, and aP2 were significantly reduced, and DNA methylation modification levels were significantly elevated in the examined promoter regions. Conclusion: The silencing of the MBD4 gene can influence the DNA methylation levels of preadipocyte differentiation-related genes and subsequently inhibit the differentiation of porcine preadipocytes.
Aims: This study aims to clarify the effects of polyadenylation status on M-phase promoting factors (MPFs) during in vitro porcine oocyte maturation. Methods: In this study, porcine follicular oocytes from large follicles (> 5 millimeter (mm)) and small follicles (< 3 mm) were examined at different follicular developmental stages. The polyadenylation of maternal mRNAs was inhibited by the addition of 3'-deoxyadenosine (3'-da) during the germinal vesicle (GV)(0 h), GV breakdown (GVBD)(18 h), metaphase I (MI)(28 h), and metaphase II (MII) (44 h) stages. In addition, the expression levels and poly-(A) tail lengths of the maternal mRNAs Cyclin B1 and cell division cycle 2 (Cdc2) were determined by real-time quantitative PCR. Immunofluorescence was used to assess spindle formation and chromosome alignment in the examined oocytes. Results: In large-follicle oocytes, the effects of inhibiting polyadenylation caused the percentage of mature to be significantly lower for the treated group than for the untreated group (p < 0.01). 3'-da can significantly improve the rate of small oocyte maturation in vitro and inhibits Cdc2 polyadenylation. Cyclin B1 plays a significant role in promoting the maturation of large-follicle oocytes. Polyadenylation contributes to the formation of dominant follicles and facilitates the selection of dominant follicles. However, the inhibition of adenylation affected spindle formation-related propulsion and chromosome alignment in both large- and small-follicle oocytes. The first polar body could not be extruded in certain large follicles. Conclusions: 3'-da can significantly improve the rate of small oocyte maturation in vitro, but it can also affect spindle formation-related propulsion and chromosome alignment.
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