小鼠体内外受精植入前胚胎全基因组甲基化模式比较

为考察体外受精、操作及培养环境对体外受精的小鼠植入前胚胎全基因组DNA甲基化模式的影响,本研究以体内受精的植入前胚胎作为对照,采用间接免疫荧光法检测小鼠体内外受精植入前胚胎基因组DNA甲基化模式.实验结果表明,体外受精各期植入前胚胎呈现出与之相应时期的体内受精植入前胚胎不同的DNA甲基化模式和水平,原核期甲基化水平较高,2-4-、8-细胞期明显降低,而桑葚胚和囊胚期又略有升高.各期体外受精植入前胚胎的基因组DNA甲基化水平都比同时期体内受精胚胎的甲基化水平低.本实验结果部分显示了体外受精、操作及培养环境可能对正常的DNA甲基化模式产生影响,造成体外受精植入前胚胎甲基化模式异常.     

小鼠卵母细胞体外成熟、体外受精的效果观察

目的　研究不同培养条件对小鼠卵母细胞体外成熟及体外受精率的影响。方法　小鼠卵母细胞分别在含有FSH、BSA和胰岛素的培养液中体外成熟,在Whitten 氏液中体外受精,比较体外成熟率、体外受精率。结果　1- 裸卵(DO) 的体外成熟率、体外受精率(81-4% ,31-0 % ) 均高于卵丘卵母细胞复合体(COC)(48-6 % ,27-1% ) 。2- 在培养液中添加FSH、胰岛素和BSA,卵母细胞的体外成熟率为77-9 % ,82-3% 、60-7% ;体外受精率为77-2 % 、72-6 % 、26-7% ;2 - 细胞率为49-2 % 、34-2 % 、10-0% 。胰岛素组的卵母细胞IVM 率最高,但IVF率、2 - 细胞率低于FSH 组。3- 添加BSA的两组的体外受精率只有26-7 % 、25-8 % ,显著低于其他组,其体外成熟率也较添加FSH 和胰岛素的组成。4- 排出第一极体(PbI) 的卵母细胞的体外受精率和2 - 细胞率(85-9 % ,22-4% ) 均高于GV期卵母细胞(71-1 % ,12-9 % ) 。结论　1- 卵丘卵母细胞(COC) 较裸卵(DO) 的体外成熟率、体外受精率都低,差异显著(P成熟< 0-01;P受精< 0-05) 。2-FSH 和胰岛素均能提高小鼠卵母细胞的体外成熟率、体外受精率。3-BSA可以降低小鼠卵母细胞体外受精率,差异极显著。4-GV 期卵母细胞的体外受精率显著低于体外培养的排出第一极体的卵母细胞(P2 - cell < 0-05,P受精<0-05)     

血管紧张素II在小鼠卵母细胞中的免疫组化定位(英文)

本文研究了血管紧张素II在小鼠卵母细胞中的免疫组织化学定位。结果表明血管紧张素II不仅分布在卵巢内的黄体细胞、卵泡的膜细胞、基质和血管,在卵母细胞的细胞质和细胞膜上也见有阳性分布。颗粒细胞和卵丘细胞上未见着色。在恢复减数分裂过程中,处于生发泡破裂和第一极体排放期的卵母细胞内也检测到血管紧张素II[(\265\304\303\342\322\337\321\364\320\324\316\357\241\243)238.1(\322\362\264\313)],血管紧张素II有可能在卵泡的生长发育和卵母细胞的成熟过程中起着重要作用。     

激光共聚焦显微镜观察小鼠早期胚胎中PKB/Akt对微丝聚合的影响

在本实验中我们用优化的免疫荧光化学法结合激光共聚焦显微技术,观察了微丝在小鼠卵细胞不同期的分布情况及PKB/Akt对小鼠卵母细胞和早期胚胎的微丝聚合的影响。结果显示,在小鼠卵母细胞及早期胚胎中均有微丝的表达,且主要集中在纺锤体处的质膜处、极体及分裂沟处。注射激活型PKB/Akt mRNA能够增强微丝的聚集。相反,注射激酶失活型的PKB/AktmRNA减弱了微丝的聚合。因而我们认为PKB/Akt可以影响小鼠卵细胞和早期胚胎的微丝聚集。     

精子介导GFP基因在小鼠早期胚胎中的表达

利用DIG末端标记技术和免疫组化技术分析了小鼠精子体外结合内化外源DNA的效率。试验结果表明,不同小鼠个体的精子结合外源DNA的阳性率有明显差异(P<0.01),平均为13%。利用考马斯亮蓝染色评价了小鼠精子顶体反应发生的情况,筛选出TYH培养液为较合适的体外受精液。利用小鼠体外受精技术,将体外转染GFP基因并获能的小鼠精子与成熟卵母细胞进行体外受精,受精卵进行体外培养,表达GFP胚胎的阳性率为4.7%。验证了精子介导制备转基因小鼠胚胎的可行性,并建立了利用精子载体法制备转基因小鼠胚胎的平台。     

Offspring from intracytoplasmic sperm injection of aged mouse oocytes treated with caffeine or MG132

Postovulatory mammalian oocytes age significantly in culture. B6D2F1 or ICR strain mouse oocytes were collected 16 h after hCG injection and then cultured for up to 40 h post hCG at 37 °C under 5% CO(2) in air. After intracytoplasmic sperm injection (ICSI), B6D2F1 and ICR oocytes lost full-term developmental potential by 30 h and 26 h after hCG administration, respectively. However, using supplementation with 10 mM caffeine or 1-5 μM of MG132, we could obtain live offspring from oocytes at 34 h (BDF1, 5%-21%) or 28 h (ICR, 5%-18%), whereas none were obtained from untreated aged oocytes. Caffeine maintained normal meiotic spindle morphology, whereas MG132 maintained maturation-promoting factor activity. These treatments did not affect the potential of fresh oocytes for fertilization and subsequent development. Thus, it should be safe to use these chemicals in routine in vitro fertilization and offspring could be generated by ICSI of aged fertilization failed oocytes.     

Mouse oocytes derived from fetal germ cells are competent to support the development of embryos by in vitro fertilization

Mouse oocyte development in vitro has been studied in the past several years, but no evidence showed that the fertilizable oocytes could be obtained from the fetal mouse germ cells before the formation of the primordial follicles. In this study, an efficient and simple method has been established to obtain the mature oocytes from the fetal mouse germ cells at 16.5 days post-coitum (dpc). For the initial of follicular formation, fetal mouse 16.5 dpc ovaries were transplanted to the recipient under the kidney capsule, and the ovaries were recovered after 14 days. Subsequently, the growing preantral follicles in the ovarian grafts were isolated and cultured in vitro for 12 days. Practically, the mature oocytes ovulated from the antral follicles were able to be fertilized in vitro and support the embryonic development. The results demonstrate that the fetal mouse 16.5 dpc germ cells are able to form primordial follicles with the ovarian pregranulosa cells during the period of transplantation in the ectopic site, and the oocytes within the growing follicles are able to mature in vitro, then are able to support the embryonic development.     

Laser Fusion of Mouse Embryonic Cells and Intra-Embryonic Fusion of Blastomeres without Affecting the Embryo Integrity

Manipulation with early mammalian embryos is the one of the most important approach to study preimplantation development. Artificial cell fusion is a research tool for various biotechnological experiments. However, the existing methods have various disadvantages, first of them impossibility to fuse selected cells within multicellular structures like mammalian preimplantation embryos. In our experiments we have successfully used high repetition rate picosecond near infrared laser beam for fusion of pairs of oocytes and oocytes with blastomeres. Fused cells looked morphologically normal and keep their ability for further divisions in vitro. We also fused two or three blastomeres inside four-cell mouse embryos. The presence of one, two or three nuclei in different blastomeres of the same early preimplantation mouse embryo was confirmed under UV-light after staining of DNA with the vital dye Hoechst-33342. The most of established embryos demonstrated high viability and developed in vitro to the blastocyst stage. We demonstrated for the first time the use of laser beam for the fusion of various embryonic cells of different size and of two or three blastomeres inside of four-cell mouse embryos without affecting the embryo’s integrity and viability. These embryos with blastomeres of various ploidy maybe unique model for numerous purposes. Thus, we propose laser optical manipulation as a new tool for investigation of fundamental mechanisms of mammalian development.     

不同品系小鼠胚胎玻璃化冷冻保存的比较研究

目的　研究甘油作为冷冻保护剂、不同基因型小鼠对胚胎玻璃化冷冻的影响。方法　采用 6 5mol L的甘油作为冷冻保护剂 ,采用二步法对CBA、NOD、C57BL 6J、ICR及CD1小鼠 3 5d的胚胎进行玻璃化冷冻 ,并比较了不同品系小鼠胚胎的复苏率及移植受孕率。结果和结论　CBA、NOD、C57BL 6J,ICR及CD1的复苏率分别为 5 7 6 %、4 8%、31 3%、86 5 %及 88% ,移植受孕率为 2 1%、2 3 5 %、11%、38%和 35 5 % ,封闭群小鼠的胚胎复苏率、移植受孕率均显著高于近交系小鼠。这提示胚胎的复苏率及移植受孕率可能与小鼠的不同基因型有关。五个品系中 ,桑椹胚及早期囊胚的体外复苏率均显著高于扩张囊胚。这说明不同基因型及胚胎的不同发育阶段对胚胎玻璃化冷冻效果有影响     

Immunohistochemical localization and possible physiological roles of tumor necrosis factor-α in mouse cumulus-oocyte complexes

Tumor necrosis factor-α (TNF-α), a cytokine which is produced by activated macrophages, has been shown to participate in the regulation of ovarian functions. In the course of our investigation on the mechanism of maturation, fertilization and degeneration of mouse oocytes, immunoreactivity to TNF-α was found in the cytoplasm of the cells surrounding the maturing oocytes and of granulosa cells facing the antral cavity. Immunoblot analysis with the specific antibody to TNF-α identified the 17 kDa Mr band in the extract of cumulusoocyte complexes. Various concentrations of TNF-α (mouse, recombinant) and anti TNF-α antiserum (polyclonal rabbit anti-mouse recombinant TNF-α) were then used to determine their effect on the germinal vesicle breakdown (GVBD), polar body extrusion, fertilization and fragmentation of mouse oocytes/eggs. TNF-α at concentrations of 10 ng/mL or less and anti-TNF-α antiserum at concentrations of 10% or less, had no effect on the spontaneous GVBD and polar body extrusion of mouse oocytes in culture. Mouse follicular oocytes cultured for more than 72 h in modified Krebs-Ringer solution in vitro undergo spontaneous fragmentation, which is a degenerative change to form 'blastomeres' with or without nuclear fragments or chromatin. Ghost-like blastomeres were also identified in the space among fragmented 'blastomeres'. The spontaneous fragmentation of mouse follicular oocytes was suppressed in the presence of TNF-α at concentrations of 1 ng/mL or greater. Anti-TNF-α antiserum (1%) accelerated the induction of fragmentation of oocytes cultured in vitro . The addition of anti TNF-α antiserum (10%) to the culture medium did not influence the fertilization rates of the eggs surrounded by the expanded cumulus. These results appear to indicate that the process of degeneration of mouse oocytes/eggs is modulated by TNF-α accumulated in the expanded cumulus during oocyte maturation.     

Staging mouse preimplantation development in vivo using optical coherence microscopy

In mammals, preimplantation development primarily occurs in the oviduct (or fallopian tube) where fertilized oocytes migrate through, develop and divide as they prepare for implantation in the uterus. Studies of preimplantation development currently rely on ex vivo experiments with the embryos cultured outside of the oviduct, neglecting the native environment for embryonic growth. This prevents the understanding of the natural process of preimplantation development and the roles of the oviduct in early embryonic health. Here, we report an in vivo optical imaging approach enabling high‐resolution visualizations of developing embryos in the mouse oviduct. By combining optical coherence microscopy (OCM) and a dorsal imaging window, the subcellular structures and morphologies of unfertilized oocytes, zygotes and preimplantation embryos can be well resolved in vivo, allowing for the staging of development. We present the results together with bright‐field microscopy images to show the comparable imaging quality. As the mouse is a well‐established model with a variety of genetic engineering strategies available, the in vivo imaging approach opens great opportunities to investigate how the oviduct and early embryos interact to prepare for successful implantation. This knowledge could have beneficial impact on understanding infertility and improving in vitro fertilization. OCM through a dorsal imaging window enables high‐resolution imaging and staging of mouse preimplantation embryos in vivo in the oviduct.      

A review on disease transmission studies in relationship to production of embryos by in vitro fertilization and to related new reproductive technologies

This paper addresses the circumstances of germplasm contamination and updates on transmission of pathogenic agents by embryos produced in vitro and by associated techniques. It has been shown that some pathogenic agents might have been associated with the follicular oocytes and oviductal cells, collected for in vitro fertilization (IVF), resulting in infected embryos. Experimental introduction of pathogenic agent with oocytes or infected semen into the IVF system allows, in most cases, for the fertilization of eggs and for the production of some transferable quality embryos. Rendering of oocytes and embryos free of infectious pathogens, using the standard sequential washing or enzymatic treatment, is inconsistent and more difficult in the presently used in vitro fertilization system as compared to in vivo produced embryos.     

高尔基体对小鼠卵母细胞体外发育进程的影响

目的初步探讨高尔基体在小鼠卵母细胞体外发育进程中的作用。方法布雷菲德菌素A（Brefeldin A,BFA）处理小鼠未成熟,成熟卵母细胞,利用特异性标记物阻COP标记高尔基体。激光扫描共聚焦显微镜观察BFA处理对高尔基体产生的影响;同时。观察并比较不同处理组小鼠未成熟／成熟卵母细胞的体外成熟率、孤雌激活率、体外受精率及2-细胞率。结果GV期卵母细胞经BFA处理后,高尔基体的形态和分布发生明显改变。其体外成熟率（2．5％）与对照组（70．4％）比较统计学差异显著（P〈0．001）;洗掉BFA后,其体外成熟率（67．2％）与对照组无统计学差异（P〉0．05）。另外,成熟卵母细胞经BFA处理后。其体外受精率及2．细胞率均与对照组差异无统计学意义（P〉0．05）。结论小鼠卵母细胞体外成熟的正常进行需要高尔基体主导的膜运输。而体外受精和受精卵卵裂过程中不需要功能性的高尔基体。     

Apoptosis and Morphology in Mouse Embryos by Confocal Laser Scanning Microscopy

Confocal laser scanning microscopy combined with a vital stain was used to study apoptosis in organogenesis-stage mouse embryos. Apoptosis has previously been visualized in whole embryos using the vital dyes acridine orange, Nile blue sulfate, and neutral red. In the present study, mouse embryos were harvested on Gestation Day 9 and stained with the vital lysosomal dye LysoTracker Red. Following incubation in the stain, embryos were fixed overnight in 4% paraformaldehyde, dehydrated in a graded methanol series, and cleared in benzyl alcohol/benzyl benzoate. The resulting embryo is almost transparent and retains specific LysoTracker Red staining. To achieve optical sectioning through embryos, it was necessary to use low-power objectives. With this procedure, the entire embryo can be optically sectioned and reconstructed in three dimensions to reveal areas of dye staining. Our results demonstrate specific regions undergoing programmed cell death in normal development and increased LysoTracker staining in embryos exposed to hydroxyurea. This procedure allows for the optical imaging of whole Day 9 ( approximately 22 somites) embryos that were greater than 700 microm thick in the z axis and can be applied to studies involving neural tube formation or other aspects of organogenesis.     

IN VITRO FERTILIZATION OF IN VITRO MATURED MINKE WHALE (BALAENOPTERA ACUTOROSTRATA) FOLLICULAR OOCYTES

In vitro fertilization of follicular oocytes harvested from ovaries and matured in vitro was attempted for 55 minke whales ( Balaenoptera acutorostrata ) captured for Japanese research purposes in the Antarctic Ocean during the period from November 1995 to March 1996. In Experiment 1, effects of culture duration (96 h or 120 h) on maturation of follicular oocytes and addition of caffeine (5 mM) and/or heparin (100 pg/ml) on sperm penetration and pro-nuclear formation were investigated. Spermatozoa recovered from the vasa deferentia of four mature males were diluted (5-fold) and frozen at - 80°C. The post-thawed and pooled spermatozoa were used for in vitro insemination. A higher ( P < 0.05) proportion of the oocytes cultured for 120 h (34.2% of 260) progressed beyond the second metaphase stage than of the oocytes cultured for 96 h (26.0% of 262). For the matured oocytes, higher rates of penetration ( P < 0.05) and pronuclear formation ( P < 0.01) were obtained in the oocytes cultured for 120 h (55.1% and 40.4%) than in those cultured for 96 h (32.4 % and 20.6%). Addition of caffeine and heparin did not show a significant effect. In Experiment 2, follicular oocytes matured for 120 h and then inseminated were cultured to examine the subsequent development in two culture systems (with and without co-cultured cumulus cells). Of 448 inseminated oocytes, cleaved embryos (2–16 cells) were observed with (5.8%) and without (4.9%) co-cultured systems. No cleavage was observed in 54 ova without insemination. These results indicate that in vitro fertilization of minke whale in vitro matured follicular oocytes with cryopreserved spermatozoa is possible, yielding cleaved embryos.     

Effects of carbon dioxide acidification of mouse oocytes before in vitro fertilization,culture, and transfer

The effects of varying pH levels on superovulated mouse oocytes before in vitro fertilization, culture, and transfer were investigated. Mouse oocytes acidified for 1 hour with 20% CO₂ (pH 6.9) exhibited a wide range of alterations. Five hours after insemination, 25% of these eggs showed different degrees of cytolysis and their perivitelline space contained numerous spermatozoa. At 12 hours normal-looking eggs from this group showed a higher proportion of polypronuclear zygotes than the control group (exposed, 51%; controls, 18%). Acidification thus markedly increased the permeability of the zona pellucida and/or interfered with the normal block to polyspermy. Fewer eggs achieved the two-cell stage among groups submitted to acidotic pH levels (6.9 to 6.6). In contrast, alkaline conditions (pH 7.8) did not reduce the proportion of two-cell embryos. However, only eggs maintained at pH 7.5 were capable of producing 80% of blastocysts. In other groups developmental blockage occurred mainly between stages 2 and 4. A significant reduction was found in the proportion of recipient females becoming pregnant after intrauterine transfer of blastocysts originating from CO₂-treated oocytes. This difference might be related to the existence of a large polyploid population among experimental eggs.     

Developmental arrest of fertilized eggs from the B6.YDOM sex-reversed female mouse

When the Y chromosome of a Mus musculus domesticus mouse strain is placed onto the C57BL/6J (B6) inbred background, the XY progeny develop ovaries or ovotestes but never normal testes during fetal life. While some of the hermaphroditic males become fertile, none of the XY females produces litters. Here, we examined the fertility and development of oocytes derived from the XY female mouse. With or without preceding injection of gonadotropins, female mice were mated with normal B6 males, and their embryos were recovered at various developmental stages. In vitro fertilization was performed with the eggs recovered from the oviduct after treatment with go-nadotropins. Development of embryos was examined by both light and electron microscopy. The results indicate that the oocytes released from the B6.Y^DOM ovary were efficiently fertilized and often initiated the first cell cleavage, but all embryos died during early preimplantation periods. Even when oocytes were fertilized in vitro, minimizing their exposure to the XY oviduct/uterus environment, most embryos died at the 1- or 2-cell stage. A few exceptional embryos reached the 4- or 8-cell stage, but abnormalities were evident in both nuclear and cytoplasmic structures of all embryos. After cleavage, neighbouring blastomeres were only loosely associated, and microvilli were abundant at the intercellular interfaces. We postulate that oocytes of the B.6.Y^DOM female mouse become defective during XY ovarian differentiation, and, hence, fail to proceed through normal embryonic development. © 1994 Wiley-Liss, Inc.     

Distribution of 5-chloromethylfluorescein diacetate staining during meiotic maturation and fertilization in vitro of mouse oocytes

The aim of this confocal microscopy study was to determine whether the pattern of CellTracker Green 5-chloromethylfluorescein diacetate (CMFDA) staining changes during meiotic maturation and fertilization in vitro of mouse oocytes. At different times during meiotic maturation and fertilization, oocytes, zygotes and two-cell embryos were stained with CMFDA to demonstrate intracellular glutathione S-transferase activity. After washing in CMFDA-free medium, most oocytes, zygotes and embryos were stained with dihydroethidium (HE) to visualize DNA structures. Meiotic maturation and fertilization in vitro of mouse oocytes were associated with changes in the pattern of intracellular CMFDA staining. In particular, accumulations of CMFDA-positive membranes were observed around the nucleus of germinal vesicle (GV) oocytes, overlaying the sperm nucleus as well as overlaying the first mitotic spindle if this approached the plasma membrane. Staining of oocytes and zygotes with the probes 3,3'-dihexyloxacarbocyanine iodine [DiOC6(3)], which stains all the intracellular membranes, and rhodamine 123, which stains active mitochondria, demonstrated that the intracellular structures evidenced by CMFDA staining did not correspond to accumulations of mitochondria. Exposure of oocytes and zygotes to the microtubule-disrupting agent nocodazole or the actin-depolymerizing drug cytochalasin D revealed an autonomous microfilament-dependent transport and relocation of CMFDA-positive membranes during meiotic maturation and fertilization. Such a transport of CMFDA-positive membranes may be envisaged as a protective shield built to prevent damage to DNA from endogenous and exogenous mutagen metabolites.     

Cat fertilization by mouse sperm injection

Summary Interspecies intracytoplasmic sperm injection has been carried out to understand species-specific differences in oocyte environments and sperm components during fertilization. While sperm aster organization during cat fertilization requires a paternally derived centriole, mouse and hamster fertilization occur within the maternal centrosomal components. To address the questions of where sperm aster assembly occurs and whether complete fertilization is achieved in cat oocytes by interspecies sperm, we studied the fertilization processes of cat oocytes following the injection of cat, mouse, or hamster sperm. Male and female pronuclear formations were not different in the cat oocytes at 6 h following cat, mouse or hamster sperm injection. Microtubule asters were seen in all oocytes following intracytoplasmic injection of cat, mouse or hamster sperm. Immunocytochemical staining with a histone H3-m2K9 antibody revealed that mouse sperm chromatin is incorporated normally with cat egg chromatin, and that the cat eggs fertilized with mouse sperm enter metaphase and become normal 2-cell stage embryos. These results suggest that sperm aster formation is maternally dependent, and that fertilization processes and cleavage occur in a non-species specific manner in cat oocytes.