生长因子在着床前鼠胚发育中的作用

近年来,大量的研究显示。生长因子在哺乳动物着床前胚胎的发育中起了十分重要的作用。首先。哺乳动物着床前胚胎以及生殖道中可以表达多种生长因子及其受体,并且在体外实验中通过添加生长因子,如EGF、IGF-Ⅰ、IGF-Ⅱ等能显著促进胚胎细胞的增生与分化。同时,如果加入抗生长因子抗体或受体抑制剂。可以阻     

Direct embryotoxicity of chromium (III) exposure during preimplantation development

Chromium in its trivalent form (chromium (III)) is an essential component of a balanced diet, and its deficiency disturbs glucose and lipid metabolism in humans and animals. The prevailing view is that chromium (III) is notably less toxic than chromium (VI), which is genotoxic and carcinogenic. Thus, the biotransformation of environmental chromium (VI) to chromium (III) is a promising and environmentally friendly detoxification method. However, increasing evidence suggests that chromium (III) induces considerable cytotoxicity. However, the toxicity of chromium (III) to early embryos remains largely unknown. In the present study, we used in vitro fertilization (IVF) to produce mouse embryos and identified the direct embryotoxicity of chromium (III). On exposure to high concentrations of CrCl₃, blastocyst formation almost completely failed and a large proportion of embryos were arrested at the 2- to 4-cell stage. At low concentrations of CrCl₃, IVF embryos showed a significant decrease in blastocyst formation, reduced total cell numbers, aberrant lineage differentiation, increased oxidative stress, and apoptosis. We also found that chromium (III) exposure during the preimplantation stage, even at low concentrations, led to impaired post-implantation development. Thus, our study substantiates the direct embryotoxicity of chromium (III) during preimplantation development and prolonged impairment of development potential. The results further highlight the potential adverse effects of chromium (III) on public reproductive health with respect to increased environmental enrichment of and dietary supplementation with chromium (III) complexes.     

Involvement of histone H2B monoubiquitination in the regulation of mouse preimplantation development

Histone H2B monoubiquitination (H2Bub1) plays an important role in developmental regulation in various vertebrate species. However, the role of H2Bub1 in mammalian preimplantation development remains unclear. In the present study, we examined the role of H2Bub1 in the regulation of mouse preimplantation development. Based on immunocytochemical analysis using an anti-H2Bub1 antibody, no H2Bub1 signal was detected in the metaphase chromosomes of unfertilized oocytes or the pronuclei of early 1-cell stage embryos, but a weak signal was observed in late 1-cell stage embryos. The signal increased after cleavage into the 2-cell stage, and thereafter a strong signal was observed until the blastocyst stage. To assess the significance of H2Bub1 in the regulation of preimplantation development, RNF20 (an H2B-specific ubiquitin E3 ligase) was knocked down using small interfering RNA (siRNAs). In embryos treated with siRNA, the levels of Rnf20 mRNA and H2Bub1 decreased at the 4-cell and morula stages. Although these embryos developed normally until the morula stage, only one-third developed into the blastocyst stage. These results suggested that H2Bub1 is involved in the regulation of preimplantation development.     

Requirement for nuclear autoantigenic sperm protein mRNA expression in bovine preimplantation development

Nuclear autoantigenic sperm protein (NASP) is associated with DNA replication, cell proliferation, and cell cycle progression through its specific binding to histones. The aim of this study was to examine the roles of NASP in bovine preimplantation embryonic development. Using NASP gene knockdown (KD), we confirmed the reduction of NASP messenger RNA (mRNA) expression during preimplantation development. NASP KD did not affect cleavage but significantly decreased development of embryos into the blastocyst stage. Furthermore, blastocyst hatching was significantly decreased in NASP KD embryos. Cell numbers in the inner cell mass of NASP KD blastocysts were also decreased compared to those of controls. These results suggest that NASP mRNA expression is required for preimplantation development into the blastocyst stage in cattle.     

Stress exposure during the preimplantation period affects blastocyst lineages and offspring development

We found retardation of preimplantation embryo growth after exposure to maternal restraint stress during the preimplantation period in our previous study. In the present study, we evaluated the impact of preimplantation maternal restraint stress on the distribution of inner cell mass (ICM) and trophectoderm (TE) cells in mouse blastocysts, and its possible effect on physiological development of offspring. We exposed spontaneously ovulating female mice to restraint stress for 30 min three times a day during the preimplantation period, and this treatment caused a significant increase in blood serum corticosterone concentration. Microscopic evaluation of embryos showed that restraint stress significantly decreased cell counts per blastocyst. Comparing the effect of restraint stress on the two blastocyst cell lineages, we found that the reduction in TE cells was more substantial than the reduction in ICM cells, which resulted in an increased ICM/TE ratio in blastocysts isolated from stressed dams compared with controls. Restraint stress reduced the number of implantation sites in uteri, significantly delayed eye opening in delivered mice, and altered their behavior in terms of two parameters (scratching on the base of an open field test apparatus, time spent in central zone) as well. Moreover, prenatally stressed offspring had significantly lower body weights and in 5-week old females delivered from stressed dams, fat deposits were significantly lower. Our results indicate that exposure to stress during very early pregnancy can have a negative impact on embryonic development with consequences reaching into postnatal life.     

热应激对小鼠附植前早期胚胎HSP70的诱导表达

选择超数排卵后怀孕昆明小鼠75只,以注射人绒毛膜促性腺激素(hCG)后的胚胎发育阶段为标准,分别在合子、2细胞、4细胞、8~16细胞和囊胚期对孕鼠进行了37℃、39℃、41℃和43℃热应激4 h。热应激后取胚,用免疫荧光细胞化学法检验胚胎热休克蛋白70(HSP70)的诱导表达。结果表明,HSP70在4细胞以上胚胎内呈阳性表达,相对高温时其表达量增加,囊胚时最显著。可见,附植前早期胚胎HSP70的热诱导表达与细胞期和温度密切相关。     

Acetylcholinesterase activity, and neurofilament protein, and catecholamine synthesizing enzymes immunoreactivities in the mouse adrenal gland during postnatal development.

The present study showed the acetylcholinesterase (AChE) activity, and neurofilament protein (NFP), catecholamine-synthesizing enzymes, dopamine beta-hydroxylase (DBH) and phenylethanolamine N-methyltransferase (PNMT) immunoreactivities in the mouse adrenal gland during postnatal development. From birth to postnatal-1-day, AChE activity was weakly and diffusely found in some medullary cells and in very few nerve fibers whereas strong NFP immunoreactivity was seen in a few ganglion cells and in remarkably numerous nerve fibers in the medulla. Almost all meduallary cells were reactive for both DBH and PNMT during this period. From postnatal-2- or -3-day to postnatal-1-week, strong AChE activity was observed in a few large ganglion cells, but the reaction was weak in clusters of chromaffin cells, and the number of strong AChE-active nerve fibers in the medulla was rapidly increased. From postnatal-2-day onwards, the number of NFP-immunoreactive nerve fibers in the medulla were remarkably numerous. Numerous chromaffin cells were reactive for both DBH and PNMT whereas some chromaffin cells were reactive for only DBH from postnatal-2-day onwards. These results suggest that drastic changes such as an increase of acetylcholine in the nerve fibers, differentiation of noradrenaline and adrenaline cells of the medulla may occur during this period. From postnatal-2-week to postnatal-3-week, weak AChE activity was seen in the clusters of several chromaffin cells and a few ganglion cells, and the number of AChE-active nerve fibers in the medulla was gradually increased. From postnatal-4-week to postnatal-8-week (adult), the distribution and frequency of AChE activity in the adrenal gland were similar to those at postnatal-3-week. In the adult, AChE activity was weakly seen in the clusters of several chromaffin cells showing noradrenaline fluorescence in the adrenal medulla. The noradrenaline cells were contacted by denser AChE-reactive nerve fibers than adrenaline cells. These results suggest that the development of cholinergic nervous system in the mouse adrenal medulla may be completed by postnatal-3-week.     

Differential patterns of nestin and glial fibrillary acidic protein expression in mouse hippocampus during postnatal development

Intermediate filaments, including nestin and glial fibrillary acidic protein (GFAP), are important for the brain to accommodate neural activities and changes during development. The present study examined the temporal changes of nestin and GFAP protein levels in the postnatal development of the mouse hippocampus. Mouse hippocampi were sampled on postnatal day (PND) 1, 3, 6, 18, and 48. Western blot analysis showed that nestin expression was high at PND 1 and markedly decreased until PND 18. Conversely, GFAP expression was acutely increased in the early phase of postnatal development. Nestin immunoreactivity was localized mainly in the processes of ramified cells at PND 1, but expression subsequently decreased. In contrast, GFAP was evident mainly in the marginal cells of the hippocampus at PND 1, but immunoreactivity revealed satellite, radial, or ramified shapes of the cells from PND 6-48. This study demonstrates that the opposing pattern of nestin and GFAP expressions in mouse hippocampus during postnatal development occur in the early development stage (PND 1-18), suggesting that the opposing change of nestin and GFAP in early postnatal development is important for neural differentiation and positioning in the mouse hippocampus.     

Molecular cloning and physiological effects of brushtail possum interleukin-1beta

Interleukin-1beta (IL-1beta) was isolated from LPS-stimulated brushtail possum alveolar macrophages using PCR primers based on conserved regions of mammalian IL-1beta. The complete cDNA was cloned by 5' and 3' rapid amplification of cDNA ends (RACE). The predicted protein of 269 amino acids shared 4346% identity with several mammalian IL-1beta proteins. Constructs were made to express the mature IL-1beta in Escherichia coli and two recombinant IL-1beta proteins, rpIL-1beta1 and rpIL-1beta2, which differed in length by four amino acids at the N-terminus, were produced. Both proteins induced a weak proliferative response in a possum thymocyte assay. Possums injected intravenously with 100 microg of rpIL-1beta1 or rpIL-1beta2 showed profound changes in body temperature and numbers of circulating leukocytes. A sharp decrease in temperature occurred within 2 h of administration followed by an elevation of temperature peaking at 24 h. The smaller rpIL-1beta1 protein had a greater effect on temperature than rpIL-1beta2. Both rpIL-1beta proteins caused a marked decrease in number of neutrophils and lymphocytes at 2-6 h after injection. At 24 h after injection, neutrophil and lymphocyte numbers were elevated 6.0-fold and 2.6-fold, respectively in the possums injected with rpIL-1beta1 and 3.9-fold and 1.5-fold, respectively in the possums injected with rpIL-1beta2. Fibrinogen levels were elevated at 24 and 72 h after injection with both proteins. In comparison, neither recombinant bovine IL-1beta (rbIL-1beta) nor PBS had significant effects on body temperature or blood haematology. The studies have shown that the two recombinant forms of IL-1beta were biologically active in possums and that the IL-1beta with four fewer amino acids at the N-terminus was the more active.     

Translocation of active mitochondria during buffalo (Bubalus bubalis) oocytes in vitro maturation, fertilization and preimplantation embryo development

Mitochondria are energy-supplying organelles, whose distribution and functional integrity are necessary for cell survival and development. In this study, the mitochondrial distribution pattern and activity during buffalo oocyte in vitro maturation, fertilization and preimplantation embryo development were revealed using a fluorescent dye and confocal laser scanning microscopy. Distribution of active mitochondria changed during buffalo oocyte in vitro maturation. Active mitochondria were transferred from the outer to inner and perinuclear cytoplasm as oocytes matured in vitro and aggregated around the pronuclei in the fertilized eggs. Active mitochondria were also observed in preimplantation embryos. In the two-cell stage, they were distributed throughout the cytoplasm. From four-cell to the spherical embryonic stages, active mitochondria translocated to the perinuclear and the periphery of the cytoplasm. These results confirm that mitochondria play an important role in oocyte and embryo. The distribution of active mitochondria might be a marked feature of buffalo oocyte maturation, fertilization and preimplantation embryo development in vitro.     

Localization of gamma-tubulin in mouse eggs during meiotic maturation, fertilization, and early embryonic development

Gamma-tubulin, a member of the tubulin superfamily, is a peri-centriolar component which is considered to be essential for microtubule nucleation. The dynamics of gamma-tubulin during mouse oocyte meiotic maturation, fertilization, and early cleavage as well as the co-localization of gamma-tubulin and alpha-tubulin during the formation of the meiotic I spindle were studied by confocal microscopy. We found that gamma-tubulin was evenly distributed in the germinal vesicle (GV) stage oocyte. After germinal vesicle breakdown (GVBD) gamma-tubulin dots were localized in both the cytoplasm and the vicinity of the condensed chromosomes, and aligned at both poles of the meiotic spindle at prometaphase I and metaphase I. At anaphase I and telophase I, gamma-tubulin was detected between the separating chromosomes, while it was absent in the midbody. At the MII stage, gamma-tubulin was again accumulated at the spindle poles. Alpha-tubulin had a similar distribution pattern as gamma-tubulin in the cytoplasm and radiated from gamma-tubulin foci close to the chromosomes during the meiotic spindle formation. After fertilization, gamma-tubulin was translocated from spindle poles to the area between separating chromatids and distributed around the pronuclei. It aggregated into some dots during the interphase, but was distributed on the mitotic spindle poles in early embryos. Our results suggest that gamma-tubulin is essential for microtubule nucleation and spindle formation during mouse oocyte meiosis, fertilization, and early embryo cleavage.     

Molecular characterization and leukocyte distribution of a teleost beta1 integrin molecule

The beta1 integrin, in combination with the alpha subunit, is responsible for migration of leukocytes into areas of inflammation. Although identified in mammalian species; the beta1 or CD29 molecule has yet to be identified in fish. The present investigation has identified a full-length channel catfish, Ictalurus punctatus, cDNA beta1 molecule composed of 2786 bases and a deduced amino acid sequence of 797 amino acids. The catfish molecule has an amino acid identity ranging from 71.87 to 74.12% with bovine, feline, human, and Xenopus. The channel catfish molecule retains several characteristics of mammalian beta1 molecules, such as four cysteine-rich repeat regions, and eight potential N-linked glycosylation sites. Based on Western blotting the channel catfish beta1 molecule has a molecular mass of approximately 130kDa, essentially the same as that for mammalian species. These results confirm the existence and expression of a beta1 gene in channel catfish, a species phylogenetically distant from mammals.     

山羊早期胚胎发育相关基因的克隆

用单胚构建的mRNA差异显示技术,对体外培养的山羊早期2、4、8～16细胞期胚胎的基因表达进行了研究,并筛选到了1条在8～16细胞期胚胎特异表达的条带进行分析。结果表明,该片段与犬细胞周期蛋白B3（CCNB3）基因具有82%的同源性。该基因作用和调控细胞的分裂活动,是羊早期胚胎发育过程中的重要影响因素。     

Significance of CCN2 expression in bovine preimplantation development

In mammalian preimplantation development, the first cell lineage segregation occurs during the blastocyst stage, when the inner cell mass and trophectoderm (TE) differentiate. Species‐specific analyses are essential to elucidate the molecular mechanisms that underlie this process, since they differ between various species. We previously showed that the reciprocal regulation of CCN2 and TEAD4 is required for proper TE differentiation in bovine blastocysts; however, the function of CCN2 during early embryogenesis has remained otherwise elusive. The present study assessed the spatiotemporal expression dynamics of CCN2 in bovine embryos, and evaluated how changes to CCN2 expression (using a CCN2 knockdown (KD) blastocyst model) regulate the expression of pluripotency‐related genes such as OCT4 and NANOG. The conducted quantitative PCR analysis revealed that CCN2 mRNA was expressed in bovine oocytes (at the metaphase stage of their second meiosis) and embryos. Similarly, immunostaining detected both cytoplasmic and nuclear CCN2 at all analyzed oocyte and embryonic stages. Finally, both OCT4 and NANOG expression levels were shown to be significantly reduced in CCN2 KD blastocysts. Together, these results demonstrate that bovine CCN2 exhibits unique expression patterns during preimplantation development, and is required for the proper expression of key regulatory genes in bovine blastocysts.     

Changes in blood protein levels in piglets during development and during stress

The concentrations of total protein (TP), albumin and globulin in the blood serum were investigated in seven trials with 203 piglets weaned at the age of three to four weeks. The lowest values were recorded in the newborn piglets just before colostrum intake. Two days later the TP level was three times higher and that of globulin almost five times higher. Later the levels began to sink (more intensively in globulin) and the decrease lasted until the end of the second month of age. Albuminaemia increased from birth until the end of study (the beginning of the third month) without any greater influence of colostrum intake and at a rate reduced by weaning. The albumin-globulin quotient, the lowest on the second day of life, increased step by step. The better-growing piglets mostly had higher albuminaemia and their hypoglobulinaemia reached a normal level sooner after weaning as compared with the tail-enders. This suggests that nutrition, body growth and albumin and globulin synthesis are interdependent in piglets. An increase in serum corticosteroids induced by two days of starvation or two administrations of adrenocorticotropic hormone, caused an insignificant increase in the concentration of albumin. Two hours after ACTH administration, the high level of corticosteroids was not observed to be accompanied by a change in serum proteins.