小鼠卵巢冷冻移植后卵泡发育和卵母细胞成熟的研究

本研究探讨了冷冻保存的1日龄小鼠卵巢异体异位移植后,其原始卵泡重新启动生长发育的能力。一日龄B6C2F．小鼠卵巢分离冷冻后置液氮中保存,保存1周。6个月后解冻,并将卵巢移植到8-12周龄B6C2F．受体鼠。肾脏包膜下,移植至少14d。每侧肾囊移植2枚卵巢的40只受体鼠中卵巢的回收率为45．00％（72／160）,而每侧。肾囊移植l枚卵巢的20只受体鼠的回收率为82．50％（33／40）。移植卵巢上卵泡的发育基本与体外自然生长鼠的卵巢卵泡发育情况一致。对卵巢移植19d的受体鼠用孕马血清促性腺激素（pregnant mare serum gonadotrophin,PMSG）处理后,从移植卵巢上发育成熟卵泡中获得的卵母细胞在MEM0c培养基中培养16-17h,有40．90％的卵母细胞发生生发泡破裂（germinal vesicle breakdown,GVBD）,其中89．02％的卵母细胞发育到第二次减数分裂中期（metaphaseⅡ,MⅡ）。将剩余的卵母细胞继续培养到20～21h,又有50．83％的卵母细胞发生生发泡破裂,但其中只有21．40％的卵母细胞能够发育到MII期。以上结果说明,小鼠早期卵巢经过冷冻．解冻并异体异位移植后,其原始卵泡能够重新启动生长发育,发育后的卵泡卵母细胞能够在体外培养成熟。这些结果意味着原始卵泡或卵巢冷冻一移植技术有可能充分利用雌性生殖细胞用于濒危动物保种、建立动物基因库和人类辅助生殖等。     

革胡子鲇卵巢在第一次性周期内分化与发育的研究

用光镜和电镜研究了革胡子鲇（Ｃｌａｒｉａｓｌａｚｅｒａ）原生殖细胞的起源迁移,卵巢在第１次性周期内的分化与发育以及各发育时期卵母细胞的超微结构。原生殖细胞起源于内胚层,有固定的迁移路线,进入生殖嵴后,生殖嵴进一步分化,出现卵巢腔分化成卵巢,卵母细胞在第１次性周期内的发育可分成６个时相,描述了各时相卵母细胞的显微结构与超微结构。同时,叙述了卵母细胞中卵黄发生的形态形成。     

九孔鲍卵子发生及卵巢发育的组织学观察

采用组织学方法研究了九孔鲍(Haliotis diversicolor supertexta)的卵子发生、卵巢结构及其发育.根据卵细胞的大小、形状,核仁的形态,卵黄颗粒的积累情况,滤泡的结构等.将九孔鲍卵子的发生分为卵原细胞、卵黄发生前的卵母细胞和卵黄发生期的卵母细胞3个时期;卵巢壁由外膜及内生殖上皮构成,生殖上皮分化产生卵原细胞和滤泡细胞;卵巢的结构单位是滤泡.根据卵巢的外部形态和内部组织结构,将九孔鲍的卵巢发育分为休止期、增殖期、生长期、成熟期和排放期共5期.     

新生小鼠卵巢移植雄鼠肾囊下卵泡的生长发育

将1日龄小鼠卵巢移植入成年雄鼠肾囊下,分别于移植后18d、36d回收移植卵巢进行形态学、组织学观察,以评价卵巢移植体在成年雄性受体小鼠体内生长及卵泡发育潜能。结果表明:移植体生长增大,有各级生长卵泡发育;18日龄移植体平均直径为1881.1μm±204.7μm,与1日龄卵巢相比差异极显著(P<0.01),卵泡发育到有腔卵泡阶段;36日龄移植体平均直径达2575.3μm±466.4μm,显著大于18日龄移植体(P<0.01),有成熟卵泡出现,未观察到黄体;从移植体分离到GV期卵母细胞和卵丘卵母细胞复合体。研究表明1日龄小鼠卵巢移植体在雄性受体生理环境中具有正常生长发育和形成成熟卵泡的潜能。     

三疣梭子蟹的第二次卵巢发育规律

2005年3-5月,在室内养殖条件下对第二次卵巢发育的三疣梭子蟹进行连续采样,系统研究了其第二次卵巢发育期间的卵巢指数(GSI)、肝胰腺指数(HSI)、卵巢外部特征、卵巢发育分期及其组织学变化.结果表明:①三疣梭子蟹第二次卵巢发育过程可以分为4期,Ⅰ期卵巢为乳白色或者淡黄色细带状,卵巢中主要为卵黄合成期的卵母细胞和内源性卵黄合成前卵母细胞;Ⅱ期为淡黄色或橘黄色,主要为外源性卵黄合成期的卵母细胞;Ⅲ期卵巢为橘红色,主要为外源性卵黄合成期的卵母细胞和近成熟期的卵母细胞;Ⅳ期卵巢发育基本成熟,肉眼可见卵粒,主要为成熟期的卵母细胞;②三疣梭子蟹第二次卵巢发育期间,GSI显著增加,HSI变化不显著,GSI和发育天数呈显著正相关性,HSI和GSI的变化没有显著的相关性.     

人胎儿卵巢异种移植的组织学研究

目的探讨人胎儿卵巢组织异体移植的最佳条件。方法观察胎儿卵巢进行异种移植后的组织学变化,并计算各组移植卵巢内各期卵泡的发育情况及卵泡构成比。结果新鲜的卵巢组织、体外培养的卵巢组织以及冷冻复苏后经体外培养的卵巢组织移植后,其内有原始卵泡发育,而且可见丰富的血管网;未见明显的淋巴细胞浸润现象。结论人胎儿卵巢组织(包括新鲜的卵巢组织、体外培养的卵巢组织以及冷冻复苏后经体外培养的卵巢组织)异种移植后原始卵泡在受体体内能进一步发育,生长卵泡分泌的雌激素有调节子宫内膜周期性变化的作用。     

粗糙沼虾卵巢发育的组织学

利用组织切片技术,对粗糙沼虾的卵子发生和卵巢发育周期进行了组织学研究。根据细胞的大小、细胞核和核仁的大小形态及卵黄积累等情况,将卵子发生划分为4个时期,卵原细胞、卵黄合成期的卵母细胞、成熟前期和成熟期。卵黄合成期的卵母细胞又可细划分为3个时期。粗糙沼虾卵巢发育具有一定的规律性。根据卵巢的大小和颜色及每种雌性生殖细胞在卵巢中所占的比例,将卵巢发育划分为7个时期。并通过卵巢发育规律的探讨,对粗糙沼虾的人工养殖提出了合理的建议。     

三疣梭子蟹的第二次卵巢发育规律

2005年3—5月，在室内养殖条件下对第二次卵巢发育的三疣梭子蟹进行连续采样，系统研究了其第二次卵巢发育期间的卵巢指数（GSI）、肝胰腺指数（HSI）、卵巢外部特征、卵巢发育分期及其组织学变化。结果表明：① 三疣梭子蟹第二次卵巢发育过程可以分为4期,Ⅰ期卵巢为乳白色或者淡黄色细带状,卵巢中主要为卵黄合成期的卵母细胞和内源性卵黄合成前卵母细胞；Ⅱ期为淡黄色或橘黄色，主要为外源性卵黄合成期的卵母细胞；Ⅲ期卵巢为橘红色，主要为外源性卵黄合成期的卵母细胞和近成熟期的卵母细胞；Ⅳ期卵巢发育基本成熟，肉眼可见卵粒，主要为成熟期的卵母细胞；② 三疣梭子蟹第二次卵巢发育期间，GSI显著增加，HSI变化不显著，GSI和发育天数呈显著正相关性，HSI和GSI的变化没有显著的相关性。     

性成熟草鱼卵巢发育的年周期变化

产卵前的卵巢同时含有大量4时相卵母细胞及少量2时相和3时相卵母细胞。产后2时相及3时相卵母细胞增多而4时相卵母细胞骤减,8月份4时相卵母细胞的数量又增多,约占卵巢体积的80％,及至11月份其数量又下降。自11月至翌年1月,卵巢中3时相卵母细胞增多而4时相卵母细胞则消失不见。至2月份,新的4时相卵母细胞又开始出现并逐渐增多。性成熟草鱼的卵巢以如此规律周而复始地产生成熟的卵子。卵巢中卵母细胞的发育是不同步的。但在产卵前有大量的3时相卵母细胞向4时相演化,同时有为数不少的发育中的2时相卵母细胞存在。产后卵巢中亦同时存在不同发育时期的卵母细胞。     

雄性受体小鼠性腺对移植卵巢卵母细胞生长发育的影响

目的探索雄性受体性腺对移植卵巢卵母细胞生长发育的影响。方法将1日龄小鼠卵巢移植入成年雄鼠肾囊下,将雄性受体小鼠分为性腺摘除组和性腺在位组,于21d回收移植卵巢,以评价雄性小鼠性腺对新生小鼠卵巢移植体卵母细胞生长发育的影响。结果移植后21d,性腺摘除组和性腺在位组卵巢回收率分别为80.0%和92.9%,移植体生长增大;每个卵巢平均回收卵母细胞数分别为(30.4±4.3)和(42.4±11.1)个,两者差异不显著(P0.05);性腺摘除组回收的均为GV期卵母细胞,性腺在位组大部分为GV期卵母细胞,有的达到MII期。结论雄性受体小鼠能够支持移植卵巢卵母细胞的生长发育,雄性受体的性腺对其影响不明显。     

Xenotransplantation: a tool for reproductive biology and animal conservation?

The transplantation of reproductive organs, including ovaries and ovarian tissue, was pioneered over 100 years ago. In the 1960s, ovarian grafting was used as a tool to investigate ovarian function, but with the recent development of more effective cryopreservation protocols for ovarian tissue, germline preservation and propagation have now become realistic goals. This review describes progress in ovarian banking and ovarian tissue transplantation, with emphasis on how fresh and frozen ovarian tissue can be used in assisted reproduction for both humans and animals. This paper focuses most closely on the potential value of xenotransplantation, the transplantation of gonads from one species to another, to conserve rare and endangered species. Specific attention is drawn to the use of xenotransplantation as a strategy for generating viable gametes that can be used to produce live fertile offspring. Other upcoming xenogeneic technologies that may be of potential significance in animal conservation, such as transplantation of whole ovaries or isolated growing follicles, and even male germ cells, are discussed.     

Detection of mouse parvovirus in Mus musculus gametes, embryos, and ovarian tissues by polymerase chain reaction assay

We used primary and nested polymerase chain reaction (PCR) assays to determine the presence of mouse parvovirus (MPV) in mouse sperm, oocytes, preimplantation embryos, and ovarian tissues collected from MPV-infected mice. The primary PCR assay detected MPV in 56% of the sperm samples. MPV was not eliminated by passing sperm samples through a Percoll gradient. After Percoll treatment, MPV was still present in 50% of the samples according to primary PCR assay. Oocyte samples that did not undergo extensive washing procedures had detectable MPV in 7% of the samples based on the primary PCR assay, but nested PCR assay detected higher (28%) infection rate. However, MPV was not detected in oocytes that underwent extensive washing procedures, as assessed by either primary or nested PCR assay. Although primary PCR did not detect MPV in embryos, a nested PCR assay determined that 50% of the embryos were positive for the virus. In addition, ovarian tissues were collected from 3 different mouse colonies with enzootic MPV infection. Ovarian tissue collected from 129CT, 101/R1, and Sencar mice had high incidence (38%, 63%, and 65%, respectively) of MPV infection on the basis of nested PCR amplification. These results demonstrate that mouse gametes, embryos, and ovarian tissues may be contaminated with MPV and therefore caution is necessary when infected germplasm is used for assisted reproductive technologies such as embryo transfer, establishing embryonic stem cell lines, in vitro fertilization, ovary transplantation, and intracytoplasmic sperm injection.     

Recent achievements in in vitro culture and preservation of ovarian follicles in mammals

The mammalian ovary contains a large number of follicles that are in various developmental stages. The largest portion of them are primordial follicles. However, throughout the female reproductive lifespan only a small proportion of these follicles will produce oocytes competent to undergo successful maturation and ovulation. The rest of the ovarian oocytes (>99.9%) undergo atresia. It would be of great practical benefit to rescue some of these follicles by growing them in culture in order to provide an extra source of gametes. There is considerable interest in developing technologies that aim to produce fully-grown, developmentally competent oocytes from a pool of early developmental stages of follicles. Two methods have been used: 1/ long-term in vitro culture of either follicles or oocytes, and 2/ transplantation of ovarian tissue grafts. The development of efficient technologies may provide an additional source of oocytes for livestock production and reproduction in humans and rare or endangered species. The aim of this paper is to present a comprehensive review of recent achievements in the utilization of small ovarian follicles (primordial, preantral and early antral) by long-term in vitro culture and/or transplantation of ovarian tissue grafts (fresh and cryopreserved) in mammals including humans.     

Bringing up small oocytes to eggs in pigs and cows

It has been known that the mammalian ovary contains a huge number of non-growing small oocytes, of which only a small number grow to their final size, mature, and are ovulated. Artificial maturation of small oocytes could provide a new source of mature eggs for livestock production and assisted reproduction in humans and in endangered species. Two methods have been used for oocyte growth, in vitro growth (IVG) culture and xenotransplantation. By these methods, oocytes in some species grow up to their final size and acquire developmental competence, although the methods are still at the experimental stage. The experiments remind us of many basic questions in mammalian oogenesis: Does the oocyte require certain stimuli to initiate growth? How are the few oocytes selected to grow to final size? How do they grow up in follicular units? How do they acquire meiotic competence during the growth phase? This paper will give some clues to answer these questions by presenting our recent data from IVG and xenotransplantation experiments, and by illustrating differences between the oocytes of mice and larger animals.     

Oocyte formation by mitotically active germ cells purified from ovaries of reproductive-age women

Germline stem cells that produce oocytes in vitro and fertilization-competent eggs in vivo have been identified in and isolated from adult mouse ovaries. Here we describe and validate a fluorescence-activated cell sorting-based protocol that can be used with adult mouse ovaries and human ovarian cortical tissue to purify rare mitotically active cells that have a gene expression profile that is consistent with primitive germ cells. Once established in vitro, these cells can be expanded for months and can spontaneously generate 35- to 50-μm oocytes, as determined by morphology, gene expression and haploid (1n) status. Injection of the human germline cells, engineered to stably express GFP, into human ovarian cortical biopsies leads to formation of follicles containing GFP-positive oocytes 1-2 weeks after xenotransplantation into immunodeficient female mice. Thus, ovaries of reproductive-age women, similar to adult mice, possess rare mitotically active germ cells that can be propagated in vitro as well as generate oocytes in vitro and in vivo.     

骨髓问充质干细胞移植对VCD所致卵巢损伤的修复研究

目的：探讨小鼠骨髓间充质干细胞（MSCs）移植对去氧乙烯基环己烯（VCD）所致卵巢早衰治疗的可行性。方法：采用VCD（160mgkg^-l,day^-1）连续腹腔注射来诱导小鼠卵巢早衰。每侧卵巢注射转染了绿色荧光基因小鼠骨髓来源的MSCs,于移植后14、28天及45天,取各组血液标本及卵巢组织,同时观察小鼠动情周期的变化;酶联免疫法检测血清FSH、LH水平,显微镜下观察MSC在卵巢的分布。结果：MSCs移植后各组均可见绿色荧光,并且主要分布于卵巢间质区,卵巢泡膜细胞区也可见绿色荧光细胞。MSCs组动情周期较实验对照组缩短,FSH与LH水平较实验对照组低,差异具有显著性。结论：骨髓间充质干细胞可改善卵巢早衰小鼠的卵巢内分泌功能,并且长时间存在于卵巢组织。骨髓间充质干细胞可能成为卵巢早衰治疗的新方法。     

Validation of an in vivo method for monitoring ovarian development in the grey mullet (Mugil cephalus L.)

The validity of using extruded intra-ovarian oocytes for in vivo assessment of ovarian maturity in the grey mullet was established. The diameter of sampled, unfixed oocytes was used as a reference point for comparative purposes. Analysis of variations in oocyte diameters among samples removed from seven different ovarian locations indicated that mullet oocytes develop in synchrony and that in vivo samples taken from any area in the ovary would be representative of the entire ovary. Statistical analyses of oocyte diameters and diameter-frequency distributions data from duplicate in vivo samples removed from the same ovarian site in each of 17 females showed no significant differences and validated the accuracy of the method. Similar comparisons of data from in vivo and in vitro samples revealed no statistically significant differences.     

Follicular development in cryopreserved Common Wombat ovarian tissue xenografted to Nude rats

The Northern Hairy-nosed Wombat (Lasiorhinus krefftii) is a highly endangered marsupial species and every possible option for sustaining the species needs to be explored. One important approach may be the development of assisted reproductive technologies in the non-endangered Common Wombat (Vombatus ursinus) and Southern Hairy-nosed Wombat (Lasiorhinus latifrons) for application in breeding the Northern Hairy-nosed Wombat.In this study, it was examined whether cryopreserved Wombat ovarian tissue would develop following xenografting to immunologically deficient rats. Ovarian tissue was collected from Common Wombats (n = 3) and cryopreserved as small cortical pieces. After thawing the cortical pieces were grafted underneath the kidney capsule of Nude rats (n = 16). The grafts were recovered at 2, 4, and 10 weeks after transplantation and their gross and histological appearance investigated. Two weeks after grafting (n = 2), the tissue was revascularized and healthy primordial follicles were present. At week 4 (n = 2), some follicular development was present. At week 10, six rats received human chorionic gonadotrophin (hCG) to trigger follicle and oocyte maturation while another six rats were not given any treatment. The administration of hCG did not induce preovulatory follicles and oocyte maturation although type 5 follicles were present in ovarian tissue collected 10 weeks posttransplantation in both treated and untreated groups. This study demonstrates for the first time that Wombat ovarian tissue can survive and function when grafted into immunocompromized rats and that Wombat ovarian follicles can be recruited to growth and development in an ovarian xenograft. This model system has the potential to produce mature oocytes from endangered species for use in assisted reproductive technologies such as in vitro fertilization (IVF), intracytoplasmic sperm injection (ICSI), and mature oocytes from non-endangered species for nuclear transfer which may be necessary for the preservation of critically endangered species.     

Maturation of mouse primordial follicles by combination of grafting and in vitro culture

Cryopreservation of ovarian cortical tissue and subsequent transplantation or in vitro culture of follicles are technologies under development with the aim to safeguard fertility in patients with gonadal failure. In the present study, we investigated whether primordial follicles could be triggered to full maturation by a combination of in vivo transplantation and in vitro culture in a mouse model. In a first step, newborn mouse ovaries containing only primordial follicles were allotransplanted under the renal capsule of ovariectomized recipient mice. The second step was to mechanically isolate growing preantral follicles from the graft and culture these in vitro to maturity. In our experiment, one newborn mouse ovary was transplanted under the renal capsule of each 8- to 12-wk-old F1 (C57Bl/6j x CBA/Ca) female ovariectomized recipient (n = 26). Two weeks after transplantation, all 26 grafts were recovered. Four grafts were processed for histology and showed that developmental stages of follicles in 14-day-old ovarian grafts were comparable to those in 14-day-old mouse ovaries. The 22 remaining grafts were used for mechanical isolation of preantral follicles. As a control group, preantral follicles isolated from ovaries of 14-day-old mice were used. The mean preantral follicle yield per ovary was 11 in the transplant group versus 33 in the control group. Follicles were cultured individually in 20-microliter droplets of alpha-MEM supplemented with 100 mIU rFSH and 5% fetal bovine serum for 12 days under an atmosphere of 5% CO(2) in air at 37 degrees C. By Day 12 of culture, 66.5% of follicles retained their oocytes in the grafting group versus 97.5% in the control group (P < 0.001). Final oocyte maturation was induced by addition of 2.5 IU/ml hCG. At 14-16 h post-HCG, the percentages of oocytes showing germinal vesicle breakdown and polar body extrusion were significantly higher in the control group (90.6% and 82.8%) compared to the grafting group (60% and 45%). The mean diameter of the mature oocytes of the grafting group (69.9 +/- 4.45 micrometer) was similar to that of oocytes from the control group (70.5 +/- 2.35 micrometer). Our results suggest that maturation of mouse primordial follicles is feasible by combination of in vivo transplantation and in vitro culture. This two-step strategy may be an attractive model for promoting the growth and maturation of primordial follicles from other species.