Polo‐like kinase 1 inhibition results in misaligned chromosomes and aberrant spindles in porcine oocytes during the first meiotic division

Polo‐like kinase 1 (Plk1), a type of serine/threonine protein kinase, has been implicated in various functions in the regulation of mitotic processes. However, these kinase's roles in meiotic division are not fully understood, particularly in the meiotic maturation of porcine oocytes. In this study, the expression and spatiotemporal localization of Plk1 were initially assessed in the meiotic process of pig oocytes by utilizing Western blotting with immunofluorescent staining combined with confocal microscopy imaging technique. The results showed that Plk1 was expressed and exhibited a dynamic subcellular localization throughout the meiotic process. After germinal vesicle breakdown (GVBD), Plk1 was detected prominently around the condensed chromosomes and subsequently exhibited a similar subcellular localization to α‐tubulin throughout subsequent meiotic phases, with particular enrichment being observed near spindle poles at MI and MII. Inhibition of Plk1 via a highly selective inhibitor, GSK461364, led to the failure of first polar body extrusion in porcine oocytes, with the majority of the treated oocytes being arrested in GVBD. Further subcellular structure examination results indicated that Plk1 inhibition caused the great majority of oocytes with spindle abnormalities and chromosome misalignment during the first meiotic division. The results of this study illustrate that Plk1 is critical for the first meiotic division in porcine oocytes through its influence on spindle organization and chromosome alignment, which further affects the ensuing meiotic cell cycle progression.     

Vitrification procedure decreases inositol 1,4,5‐trisphophate receptor expression,resulting in low fertility of pig oocytes

Although cryopreservation of mammalian oocytes is an important technology, it is well known that unfertilized oocytes, especially in pigs, are highly sensitive to low temperature and that cryopreserved oocytes show low fertility and developmental ability. The aim of the present study was to clarify why porcine in vitro matured (IVM) oocytes at the metaphase II (MII) stage showed low fertility and developmental ability after vitrification. In vitro matured cumulus oocyte complexes (COCs) were vitrified with Cryotop and then evaluated for fertility through in vitro fertilization (IVF). Although sperm‐penetrated oocytes were observed to some extent (30–40%), the rate of pronuclear formation was low (9%) and none of them progressed to the two‐cell stage. The results suggest that activation ability of cryopreserved oocytes was decreased by vitrification. We examined the localization and expression level of the type 1 inositol 1,4,5 trisphosphate receptor (IP₃R1), the channel responsible for Ca²⁺ release during IVF in porcine oocytes. Localization of IP₃R1 close to the plasma membrane and total expression level of IP₃R1 protein were both decreased by vitrification. In conclusion, our present study indicates that vitrified‐warmed porcine COCs showed a high survival rate but low fertility after IVF. This low fertility seems to be due to the decrease in IP₃R1 by the vitrification procedure.     

The localization and function of p38α mitogen‐activated protein kinase in rat oocytes

P38α mitogen‐activated protein kinase (MAPK), which is a member of the canonical MAPK family, is activated in response to various extracellular stresses and plays a role in multiple cellular processes. In this study, we investigated the expression, subcellular localization and functional roles of p38α MAPK during the meiotic maturation of rat oocytes. We found that p38α MAPK phosphorylation (p‐p38α MAPK, indicative of p38α MAPK activation) was low at the germinal vesicle (GV) stage, increased 3 hr after germinal vesicle breakdown (GVBD) and maintained its maximum at metaphase I (MI) or metaphase II (MII). The p‐p38α MAPK mainly accumulated in the GV and had no obvious expression in the nucleus. From GVBD to MII, p‐p38α MAPK was distributed in the cytoplasm around either the chromosomes or the spindle. We used SB203580, an inhibitor of p38α MAPK, to investigate the possible functional role of p38α MAPK during rat oocyte meiotic maturation. Treatment of GV stage oocytes with 20 μM SB203580 blocked p‐p38α MAPK activity, and the spindles appeared abnormal. Additionally, the rate of GVBD after 3 hr of culture with 20 μM SB203580 (58.8%) was significantly inhibited compared with the control (82.5%, p < .05), and the polar body extrusion rate after 12 hr of culture with SB203580 was also significantly decreased compared with the control (40.1% vs 73.3%, p < .05). Taken together, these data indicate that p38α MAPK may play a vital role in rat oocyte meiotic maturation.     

Effect of porcine glucagon‐like peptides‐2 on tight junction in GLP‐2R + IPEC‐J2 cell through the PI3k/Akt/mTOR/p70S6K signalling pathway

Because of rare glucagon‐like peptide‐2 (GLP‐2) receptor (+) cells within the gut mucosa, the molecular mechanisms transducing the diverse actions of GLP‐2 remain largely obscure. This research identified the naturally occurring intestinal cell lines that endogenously express GLP‐2R and determined the molecular mechanisms of the protective effects of GLP‐2‐mediated tight junctions (TJ) in GLP‐2R (+) cell line. (i) Immunohistochemistry results showed that GLP‐2R is localised to the epithelia, laminae propriae and muscle layers of the small and large bowels of newborn piglets. (ii) GLP‐2R expression was apparent in the cytoplasm of endocrine cells in IPEC‐J2 cell lines. (iii) The protein expressions of ZO‐1, claudin‐1, occludin, p‐PI₃K, p‐Akt, p‐mTOR and p‐p70^S6K significantly (p < 0.05) increased in GLP‐2‐treated IPEC‐J2 cells, and all of them significantly (p < 0.05) decreased when LY‐294002 or rapamycin was added. GLP‐2 improves intestinal TJ expression of GLP‐2R (+) cells through the PI₃k/Akt/mTOR/p70^S6K signalling pathway.     

Sirt1 protects pig oocyte against in vitro aging

Sirtuins have been widely reported to be involved in multiple biological processes. However, their function during pig oocyte aging has not been reported yet. Here, we first identify that sirt1 expression is dramatically reduced in pig in vitro‐aged oocytes. Furthermore, by confocal scanning and quantitative analysis, we find the increased frequency of spindle defects and chromosome misalignment, disturbed redistribution of cortical granules and mitochondria during oocyte in vitro‐aging. Importantly, these aging‐associated defective phenotypes can be ameliorated through resveratrol (sirt1 activator) treatment during pig oocyte maturation, providing the evidence for the hypothesis that decreased sirt1 is one of a number of factors contributing to oocyte in vitro‐aging. In summary, our data indicate a role for sirt1 in pig oocytes and uncover a striking beneficial effect of sirt1 expression on aged oocytes.     

Genetic variation at the alpha‐1‐fucosyltransferase (FUT1) gene in Asian wild boar and Chinese and Western commercial pig breeds

Escherichia coli F18 bacteria producing enterotoxins and/or shigatoxin (ETEC/STEC) are main pathogens that cause oedema disease and postweaning diarrhoea in piglets, and alpha‐1‐fucosyltransferase (FUT1) gene has been identified as a candidate gene for controlling the expression of ETEC F18 receptor. The genetic variations at nucleotide position 307 in open reading frame of FUT1 gene in one wild boar breed and 20 western commercial and Chinese native pig breeds were investigated by polymerase chain reaction–restriction fragment length polymorphism. The results showed that the genetic polymorphisms of the FUT1 locus were only detected in western pig breeds and the Chinese Taihu (including Meishan pig, Fengjing pig and Erhualian pig), Huai and Lingao pig breeds; only Duroc and Pietrain possessed the resistant AA genotype, while the wild boar and other Chinese pig breeds only presented the susceptible genotype GG. The results indicated that Chinese native pig breeds lack genetic factors providing resistance to ETEC F18 bacteria. The resistant allele to ETEC F18 might originate from European wild boar. It was inferred that oedema and postweaning diarrhoea caused by ETEC F18 have close relationship with the growth rate, which can explain why on the contrary Chinese native pig breeds have stronger resistance to oedema and postweaning diarrhoea in piglets compared with western pig breeds.     

Elevated cyclin D1 expression is governed by plasma IGF‐1 through Ras/Raf/MEK/ERK pathway in rumen epithelium of goats supplying a high metabolizable energy diet

The objective of this study was to explore the underlying mechanism of insulin‐like growth factor 1 (IGF‐1)–caused cell proliferation of rumen epithelium in goats fed a high metabolizable energy (ME) diet. In this study, young goats were fed either a low ME [LL, n = 9, ME: 0.57 MJ/kg^0.75/day] or high ME [HL, n = 9, ME: 1.00 MJ/(kg^0.75/day)] diet for 42 day. The time duration of G₁‐phase was shortened as a result of enhanced expression of cyclin D1 mRNA in the HL group (p < 0.05). It was suggested that a high ME diet promoted cell transition from G₀/G₁ to S‐phase via cyclin D1. The level of phosphorylation of ERK was higher in HL than LL group (p < 0.05). In cell culture, the ERK was phosphorylated by IGF‐1 treatment. The proliferative effects of insulin‐like growth factor 1 (IGF‐1, 25 ng/ml) on [³H] thymidine (TdR) incorporation into DNA and on cyclin D1 protein expression of rumen epithelial cells were inhibited by PPP (the inhibitor of type 1 IGF receptor) (p < 0.05) and ERK inhibitor (p < 0.05) in vitro. Thus, IGF‐1 up‐regulated cyclin D1 expression and accelerated G₁‐phase progression in the cell cycle through Ras/Raf/MEK/ERK pathway in rumen epithelium of goats.     

MiR‐222 inhibits apoptosis in porcine follicular granulosa cells by targeting the THBS1 gene

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.     

Expression analysis of an α‐1, 3‐galactosyltransferase,an enzyme that creates xenotransplantation‐related α–Gal epitope,in pig preimplantation embryos

α‐1,3‐Galactosyltransferase (α‐GalT), an enzyme creating Galα1‐3Gal (α‐Gal) epitope on the cell surface in some mammalian species such as pigs, is known to be a key factor that causes hyperacute rejection upon transplantation from pigs to humans. To establish the RNA interference‐based suppression of endogenous α‐GalT messenger RNA (mRNA) synthesis in porcine preimplantation embryos, we determined the suitable embryonic stage at which stage such approach is possible by using the semi‐quantitative RT‐PCR (qRT‐PCR) and the cytochemical method using a fluorescence‐labeled Bandeiraea simplicifolia Isolectin B₄ (BS‐I‐B₄). Staining with BS‐I‐B₄ demonstrated that α‐Gal epitope expression was first recognized at the 8‐cell stage, and increased up to the hatched blastocyst stage. Single embryo‐based qRT‐PCR also confirmed this pattern. These results indicate that creation of α‐Gal epitope is proceeded by de novo synthesis of α‐GalT mRNA in porcine preimplantation embryos with peaking at the blastocyst stage.     

Effect of estradiol‐17β during in vitro growth culture on the growth,maturation, cumulus expansion and development of porcine oocytes from early antral follicles

Growing porcine oocytes from early antral follicles can acquire meiotic and developmental competence under suitable culture conditions, but at lower rates compared to full‐grown oocytes. We postulated that estradiol‐17β (E₂) supported the acquisition of meiotic and developmental competence as well as cumulus‐expansion ability during growth culture. Growing oocytes from early antral follicles (1.2 to 1.5 mm in diameter) were grown in vitro for 5 days in a medium containing 0, 10^?7, 10^?6, 10^?5 or 10^?4 mol/L E₂; after in vitro maturation, 35, 58, 47, 74 and 49% of oocytes matured to metaphase II, 25, 79, 77, 90 and 97% acquired cumulus‐expansion ability, and 23, 54, 63, 89 and 64% were fully surrounded by cumulus cells, respectively. Following maturation, electro‐stimulation was applied to the oocytes grown with 10^?5 mol/L E₂. After 6 days of culture, in vitro‐grown oocytes developed to the blastocyst stage at a rate similar to that for full‐grown oocytes (31% and 40%, respectively). Therefore, we suggest that the use of E₂ during growth culture improves the meiotic and developmental competence of oocytes, cumulus‐expansion ability, and cumulus cell attachment to the oocytes.     

Molecular cloning and expression of FGF2 gene in pre‐implantation developmental stages of in vitro‐produced sheep embryos

Early embryonic mortality is one of the main sources of reproductive loss in domestic ruminants including sheep. Fibroblast growth factor‐2 (FGF‐2) is a member of FGFs family that mediates trophoblast activities and regulates embryonic development in various species. In this study, we have cloned, characterized sheep FGF2 cDNA (KU316368) and studied the expression in sheep embryos. Ovaries of non‐pregnant sheep were collected from local abattoir and matured in culture medium at 38.5ºC, 5% CO₂, 95% humidity for 22–24 hr. The matured oocytes were inseminated with capacitated spermatozoa in Brackett and Oliphant medium and resulted embryos were cultured in CO₂ incubator for 6–7 days to complete the developmental stages from two cells to blastocyst stage. Total RNA was extracted from immature oocytes (n = 100), mature oocytes (n = 100) and different stages of embryos such as 2 cell (n = 50), 4 cell (n = 25), 8 cell (n = 12), 16 cell (n = 6), morula (n = 5) and blastocyst (n = 3). The total RNA isolated from the oocytes and embryos was reverse transcribed and subjected to real‐time polymerase chain reaction using sequence‐specific primers and SYBR green as the DNA dye. On sequence analysis, the nucleotide sequence of sheep FGF2 exhibited highest sequence similarity with cattle (100%) and least with rat and mouse (69.2%). At the deduced amino acid level, a highest degree of similarity was noticed with cattle, buffalo, goat, pig, camel and horse (100%) and lowest degree of identity with rat, human and mouse (98.2%). The FGF2 mRNA expression was higher in immature and mature oocytes and gradually decreases from 2‐cell stage of embryo to the blastocyst stage. More over a significant differences in FGF2 mRNA expression (p < .05) were observed between immature oocytes and all pre‐implantation stages of embryo. It can be concluded that FGF‐2 plays a significant role in pre‐implantation and early development of embryos in sheep.     

Involvement of PKA signalling in anti‐inflammatory effects of chitosan oligosaccharides in IPEC‐J2 porcine epithelial cells

Weaning is characterized by intestinal inflammation, which is a big challenge in pig industry. Control of intestinal inflammation is important for improvement of growth performance and health. Therefore, the study was focused on the anti‐inflammatory activity of low‐molecular‐weight chitosan oligosaccharide (LCOS) in a porcine small intestinal epithelial cell line (IPEC‐J2). The results showed that TNF‐α, as inflammation inducer, significantly upregulated the mRNA expression of IL‐8 and MCP‐1. Afterwards, LCOS significantly attenuated mRNA expression of IL‐8 and MCP‐1 induced by TNF‐α in the cells. Mannose (MAN), as ligand of mannose receptor, had no effect on the anti‐inflammatory activity of LCOS, which suggested that mannose receptor may not involve in the anti‐inflammatory activity of LCOS in IPEC‐J2 cells. Interestingly, N‐[2‐(p‐bromocinnamylamino)ethyl]‐5‐isoquinolinesulfonamide 2HCl hydrate (H89), as PKA (protein kinase A)‐specific inhibitor, reversed the mRNA expression of IL‐8 when co‐cultured with LCOS. Furthermore, LCOS concentration dependent downregulated the mRNA expression of claudin‐1 compared with TNF‐α treatment. However, the trans‐epithelial electric resistance (TEER) was not affected by LCOS when co‐cultured with TNF‐α in 3 hr. In conclusion, LCOS have a potent anti‐inflammatory activity, and as a feed additives, may be useful for the inhibition of inflammatory process in weaning period of pigs with intestinal inflammation occurring.     

Aspartame supplementation in starter accelerates small intestinal epithelial cell cycle and stimulates secretion of glucagon‐like peptide‐2 in pre‐weaned lambs

The objective of this study was to test the hypothesis that aspartame supplementation in starter diet accelerates small intestinal cell cycle by stimulating secretion and expression of glucagon‐like peptide ?2 (GLP‐2) in pre‐weaned lambs using animal and cell culture experiments. In vivo, twelve 14‐day‐old lambs were selected and allocated randomly to two groups; one was treated with plain starter diet (Con, n = 6) and the other was treated with starter supplemented with 200 mg of aspartame/kg starter (APM, n = 6). Results showed that the lambs received APM treatment for 35 d had higher (p < .05) GLP‐2 concentration in the plasma and greater jejunum weight/live body weight (BW) and jejunal crypt depth. Furthermore, APM treatment significantly upregulated (p < .05) the mRNA expression of cyclin D1 in duodenum; and cyclin A2, cyclin D1, cyclin‐dependent kinases 6 (CDK6) in jejunum; and cyclin A2, cyclin D1, CDK4 in ileum. Moreover, APM treatment increased (p < .05) the mRNA expression of glucagon (GCG), insulin‐like growth factor 1 (IGF‐1) in the jejunum and ileum and mRNA expression of GLP‐2 receptor (GLP‐2R) in the jejunum. In vitro, when jejunal cells were treated with GLP‐2 for 2 hr, the 3‐(4,5‐dimethyl‐2‐thiazolyl)‐2,5‐diphenyl‐2‐H‐tetrazolium bromide (MTT) OD, IGF‐1 concentration, and the mRNA expression of IGF‐1, cyclin D1 and CDK6 were increased (p < .05). Furthermore, IGF‐1 receptor (IGF‐1R) inhibitor decreased (p < .05) the mRNA expression of IGF‐1, cyclin A2, cyclin D1 and CDK6 in GLP‐2 treatment jejunal cells. These results suggest that aspartame supplementation in starter accelerates small intestinal cell cycle that may, in part, be related to stimulate secretion and expression of GLP‐2 in pre‐weaning lambs. Furthermore, GLP‐2 can indirectly promote the proliferation of jejunal cells mainly through the IGF‐1 pathway. These findings provide new insights into nutritional interventions that promote the development of small intestines in young ruminants.     

Neurokinin‐1 receptor expression and antagonism by the NK‐1R antagonist maropitant in canine melanoma cell lines and primary tumour tissues

We interrogated the neurokinin‐1 receptor (NK‐1R)/substance P (SP) pathway in canine melanoma tumour tissues and cell lines. NK‐1R messenger RNA (mRNA) and protein expression were observed in the majority of tumour tissues. Immunohistochemical assessment of archived tissue sections revealed NK‐1R immunoreactivity in 11 of 15 tumours, which may have diagnostic, prognostic and therapeutic utility. However, we were unable to identify a preclinical in vitro cell line or in vivo xenograft model that recapitulates NK‐1R mRNA and protein expression documented in primary tumours. While maropitant inhibited proliferation and enhanced apoptosis in cell lines, in the absence of documented NK‐1R expression, this may represent off‐target effects. Furthermore, maropitant failed to suppress tumour growth in a canine mouse xenograft model derived from a cell line expressing mRNA but not protein. While NK‐1R represents a novel target, in the absence of preclinical models, in‐species clinical trials will be necessary to investigate the therapeutic potential for antagonists such as maropitant.     

Phosphorylation of the MAPK Pathway has an Essential Role in the Acrosome Reaction in Miniature Pig Sperm

In almost all animal species, sperm acrosome reaction (AR) is a crucial step for fertilization. The step is a Ca²⁺‐dependent secretory event that must be completed before fertilization. Many researchers have reported that several chemicals (such as ionomycin, thapsigargin and caffeine) artificially induce this step by increasing [Ca²⁺]_i. However, little information has been known on events that occur following Ca²⁺ induced initiation of the sperm AR. We show here for the first time that phosphorylation of the mitogen‐activated protein kinase (MAPK) pathway is required for the AR in miniature pig sperm. Following caffeine treatment artificially inducing the AR in miniature pig sperm, Raf was phosphorylated and then MAP kinase kinase (MEK) and extracellular‐signal regulated kinase1 (ERK1) were also phosphorylated in a time‐dependent manner. However, the total ERK1 level did not change during the culture. Pre‐treatment of sperm with U0126, a MEK inhibitor, significantly suppressed both the AR and phosphorylation of MEK/ERK1 in a dose‐dependent manner. Additionally, pre‐incubation of the sperm with seminal vesicle (SV) fluid, which is known to contain a decapacitation factor, suppressed both the AR and MEK/ERK1 phosphorylation. These results suggest that phosphorylation of MAPK pathway plays an important role in the AR in miniature pig sperm. Moreover, the SV fluid may have an inhibitory effect on the AR via the suppression of the MAPK pathway.     

Porcine CPEB1 is involved in Cyclin B translation and meiotic resumption in porcine oocytes

Ovarian immature oocytes accumulate many dormant maternal mRNAs, which have short poly(A) tails. Cytoplasmic‐polyadenylation‐element binding protein (CPEB) has been reported to play key roles for the elongation of the tails and the translation of these mRNAs in Xenopus oocytes. However, the functions of CPEB in meiotic resumption have not yet been established in mammalian oocytes. The present study examined the roles of porcine CPEB in Cyclin B syntheses and meiotic resumption of porcine oocytes. Porcine CPEB1 (pCPEB1) cDNA was cloned from total RNA of immature oocytes by RT‐PCR. The overexpression of pCPEB1 by mRNA injection into immature oocytes increased Cyclin B expression and the rate of meiotic resumption. Conversely, the inhibition of endogenous CPEB by expression of a dominant‐negative mutant pCPEB1 (AA‐CPEB), which replaced the expected phosphorylation sites with alanines, had the effect of inhibiting Cyclin B synthesis, ribosomal S6 kinase phosphorylation (an indicator of Mos activity), and meiotic resumption. The inhibition of porcine Aurora A by an injection of antisense RNA enhanced the inhibitory effects of AA‐CPEB. These results suggest the involvement of mammalian CPEB1 in Cyclin B syntheses and meiotic resumption in mammalian oocytes. In addition, the phosphorylation sites of pCPEB1 were identified and are suggested to be phosphorylated by porcine Aurora A.     

Glycine ameliorates mitochondrial dysfunction caused by ABT-199 in porcine oocytes

Mitochondria play an important role in controlling oocyte developmental competence. Our previous studies showed that glycine (Gly) can regulate mitochondrial function and improve oocyte maturation in vitro. However, the mechanisms by which Gly affects mitochondrial function during oocyte maturation in vitro have not been fully investigated. In this study, we induced a mitochondrial damage model in oocytes with the Bcl-2-specific antagonist ABT-199. We investigated whether Gly could reverse the mitochondrial dysfunction caused by ABT-199 exposure and whether it is related to calcium regulation. Our results showed that ABT-199 inhibited cumulus expansion, decreased the oocyte maturation rate and the intracellular glutathione (GSH) level, caused mitochondrial dysfunction, which was confirmed by decreased mitochondrial membrane potential (ΔΨm) and the expression of mitochondrial function-related genes PGC-1α, and increased reactiveoxygenspecies (ROS) levelsand the expression of apoptosis-associated genes Bax, Caspase-3, and Cyto C.More importantly, ABT-199-treated oocytes showed an increase in the intracellular free calcium concentration ([Ca²⁺]i) and had impaired cortical type 1 inositol 1,4,5-trisphosphate receptors (IP₃R1) distribution. Nevertheless, treatment with Gly significantly ameliorated mitochondrial dysfunction, oxidative stress, and apoptosis, and Gly also regulated [Ca²⁺]i levels and IP₃R1 cellular distribution, which further protects oocyte maturation in ABT-199-induced porcine oocytes.Taken together, our results indicate that Gly has a protective action against ABT-199-induced mitochondrial dysfunction in porcine oocytes.