HeLa细胞表达分泌重组eGFP—DPF-1在卵母细胞上的定位

将兔输卵管蛋白(DPF-1)基因连结于增强型绿色荧光蛋白(eGFP)基因5′端,构建了真核表达重组质粒(pEGFP-N1／DPF-1),转染HeLa细胞,获得稳定表达分泌融合蛋白eGFP—DPF-1的HeLa细胞株。该融合蛋白呈现的分子量达120KD,提示经翻译后修饰。取兔卵母细胞-卵丘细胞复合物(COC)、去除卵丘细胞后的卵母细胞或输卵管内的卵母细胞,与该株细胞共培养或培养于该株细胞条件培液中,观察兔输卵管蛋白在兔卵母细胞上的分布。结果显示DPF-1大量结合于卵母细胞透明带,先结合于透明带内层,然后维持在内层多外层少的分布状态上;在卵母细胞质膜表面则呈点状均匀分布。DPF-1在卵母细胞上的分布不受其周围颗粒细胞的阻碍,且颗粒细胞上未见有DPF-1结合的痕迹。本实验首次证实体外真核细胞表达分泌的输卵管蛋白能与卵母细胞结合,并借助绿色荧光蛋白作为示踪信号体外直接观察到该表达产物在卵母细胞上的动态分布,为进一步深入分析输卵管蛋白的功能提供了线索,也为研究输卵管内其他蛋白在配子／早胚上定位提供了可行的办法。     

颗粒细胞EGF类因子信号通路在调控卵母细胞成熟和发育中的作用

动物体内卵泡排卵前促黄体素(luteinizing hormone, LH)诱导了卵丘颗粒细胞扩散,并启动卵母细胞恢复减数分裂。普遍认为,卵泡壁层颗粒细胞表达LH受体,卵母细胞及其周围卵丘细胞不表达LH受体,LH通过作用于卵泡壁层颗粒细胞产生信号分子,这些信号分子作用于卵丘颗粒细胞介导了LH生物作用。然而,一直以来,关于排卵前介导LH作用而诱导卵母细胞成熟的机制一直存在争议。目前研究认为,LH作用于卵泡壁层颗粒细胞后产生了EGF类因子,并与颗粒细胞的受体结合,促进了卵母细胞的成熟和发育。由于体外成熟的卵丘卵母细胞复合体来源于生长卵泡,其卵丘颗粒细胞EGF类因子信号系统不完善,目前的体外成熟培养体系难以模拟卵泡内的生理环境,导致卵母细胞体外发育能力较差,限制了这些卵母细胞的利用效率。本文综述了颗粒细胞EGF类因子信号系统、EGF类因子在调控卵母细胞成熟中的作用及对卵母细胞发育能力的影响,为优化卵母细胞体外成熟培养体系,完善卵丘颗粒细胞的EGF类因子的信号系统,进而提高卵母细胞体外成熟效率提供理论依据。     

兔骨形态发生蛋白15 cDNA部分序列的克隆及其在卵母细胞中的表达

采用RT-PCR法从新西兰大白兔卵巢中克隆出BMP15基因部分cDNA片段,经blast分析后,发现其与猪、牛、绵羊、山羊、人和小鼠的同源性达到了83%—90%。同时,利用实时荧光定量RT-PCR方法检测了BMP15mRNA在卵母细胞体外成熟培养过程中(IVM)的表达变化情况,结果表明:在兔卵母细胞体外成熟过程中,该基因在未成熟卵母细胞中表达水平较低,在培养16h其表达丰度达到峰值,并与卵丘扩展时间相一致,随后下降,推测BMP15可能在兔卵丘细胞扩展中发挥重要作用。     

兔骨形态发生蛋白15 cDNA部分序列的克隆及其在卵母细胞中的表达(英文）

采用RT-PCR法从新西兰大白兔卵巢中克隆出BMP15基因部分cDNA片段,经blast分析后,发现其与猪、牛、绵羊、山羊、人和小鼠的同源性达到了83%—90%。同时,利用实时荧光定量RT-PCR方法检测了BMP15 mRNA在卵母细胞体外成熟培养过程中（IVM）的表达变化情况,结果表明：在兔卵母细胞体外成熟过程中,该基因在未成熟卵母细胞中表达水平较低,在培养16 h其表达丰度达到峰值,并与卵丘扩展时间相一致,随后下降,推测BMP15可能在兔卵丘细胞扩展中发挥重要作用。     

克服早胚发育阻断的兔输卵管因子“DPF-1”的初步研究

兔64 kDa输卵管蛋白(DPF-1)具克服小鼠早胚发育阻断的作用。进一步分析的结果表明DPF-1的等电点介于7.2-8.1;其合成与分泌对雌激素或孕激素无明显依赖性,能穿越透明带,紧密附着在早胚细胞膜周围。借助于Western blotting分析法,发现DPF-1的分布具组织专一性,仅存在于输卵管,而新西兰白兔子宫、卵巢、肝脏、心脏、肺、脾脏、骨骼肌、小肠和脑等组织中皆未发现;在所检测的小鼠和金黄田鼠输卵管中,也显示出DPF-1相关分子,小鼠的为71 kDa和32 kDa输卵管蛋白,金黄田鼠的为68 kDa和49 kDa输卵管蛋白。值得注意的是,以DPF-1主动免疫的雌性小鼠,经交配,输卵管中的44.8%早胚发育遭阻断,提示DPF-1在克服早胚发育阻断并实现由母型向合子型基因调控过渡的过程中可能起决定性作用。     

兔骨形态发生蛋白15cDNA部分序列的克隆及其在卯母细胞中的表达

采用RT-PCR法从新西兰大白兔卵巢中克隆出BMP15基因部分cDNA片段,经blast分析后,发现其与猪、牛、绵羊、山羊、人和小鼠的同源性达到了83％-90％。同时,利用实时荧光定量RT-PCR方法检测了BMP15mRNA在卵母细胞体外成熟培养过程中（IVM）的表达变化情况,结果表明：在兔卯母细胞体外成熟过程中,该基因在未成熟卵母细胞中表达水平较低,在培养16h其表达丰度达到峰值,并与卵丘扩展时间相一致,随后下降,推测BMP15可能在兔卵丘细胞扩展中发挥重要作用。     

绵羊卵泡成分对卵母细胞体外减数分裂调控的研究

哺乳动物卵巢中的卵母细胞一直处于减数分裂的停滞状态,卵泡内各成分被认为是产生抑制因子的主要来源。本研究以绵羊卵泡各成分为研究对象,用共培养的方法对卵丘细胞、颗粒细胞、膜细胞在卵母细胞体外减数分裂过程中的作用加以探讨。结果表明：1．卵泡整体及卵泡分泌物在体外可以有效地维持减数分裂停滞,经过24h培养,这两个处理组中,处于GV期的卵母细胞分别为69．6％和49．1％。经抑制处理后的卵母细胞脱离抑制环境后可以继发成熟,MⅡ比率可达88．9％。去掉卵丘细胞的裸卵其减数分裂过程不能被卵泡分泌物有效抑制,24h培养后其GV期比例为17．8％。以上结果说明卵泡中的抑制因子主要是通过卵丘细胞束发挥其调控作用的。2．用颗粒细胞与卵母细胞共培养,结果发现具有颗粒细胞卵丘细胞缝隙连接的卵母细胞(COCGs)在培养24小时后47．4％达到MⅡ,与在不具有细胞连接的总浮颗粒细胞中共培养的卵母细胞之间存在无显差异,无论是紧密连接的颗粒细胞层还是悬浮在培养液中的颗粒细胞都不能有效抑制生发泡破裂(GVBD)的发生,只能将卵母细胞抑制在MⅡ以前的各个时期。以上结果说明颗粒细胞在体外分泌抑制图子的活力大大下降。3．卵泡膜细胞具有分泌抑制成熟分裂因子的能力,与膜细胞层共培养的卵母细胞在8h和24h时,其GV期的比例为34．4％和32．7％,显高于没有膜细胞层的对照组(4．5％和1.1％)。综上所述,绵羊卵泡中的抑制因子不仅来自于颗粒细胞,而且膜细胞也参与了成熟分裂的抑制,这些细胞在体外仍具有分泌抑制因子的能力,只是与体内分泌能力有所不同。     

大鼠大麻素Ⅰ型受体绿色荧光融合蛋白真核表达载体的构建与鉴定

目的:构建大鼠大麻素型Ⅰ受体绿色荧光融合蛋白真核表达载体并观察其在细胞中的表达。方法:大鼠CB1基因序列设计引物,以大鼠脑组织为模板扩增CB1基因编码区片段,克隆至增强型绿色荧光蛋白表达载体pEGFP-N3中,构建重组融合蛋白表达载体pCB1-EGFP。将pCB1-EGFP质粒转染HeLa细胞,通过观察EGFP报告基因的表达以及免疫荧光,Western Blot方法鉴定CB1可在真核细胞中过表达情况。结果:构建重组融合蛋白表达载体pCB1-EGFP,单双酶切和测序验证正确。将pCB1-EGFP质粒转染HeLa细胞,荧光显微镜下观察到融合表达的绿色荧光蛋白,且呈胞膜表达。免疫荧光试验也证明重组载体转染后,CB1基因和GFP共同定位于胞膜部分。Western Blot实验证明表达CB1蛋白。结论:成功构建了高表达的CB1-EGFP融合蛋白真核表达载体。     

鸡输卵管上皮细胞瞬时表达系统

在开发利用生物反应器生产特定蛋白的研究中,若先用特异组织作原代培养,建立瞬时表达系统,对特定调控元件和融合基因进行分析,可大大缩短研究进程。本文首次报道用鸡输卵管上皮细胞原代培养,建立瞬时表达系统的方法。输卵管细胞体外培养（Fig.1-3),在二,三周时间内仍然保持分泌卵清蛋白的功能,当分泌功能减弱时,若地培液中添加激素,一般一周后大部分细胞又可恢复分泌功能（Fig.4),由于卵清蛋白是一种分泌蛋白,通过斑点免疫渗滤法可迅速简便的从培液中检测到（Fig.4)。为 验证培养细胞能否表达外源基因,在原代培养细胞中转染绿色荧光蛋白基因,可在细胞浆中显示绿色荧光（Fig.5)。说明这是一个有效而又方便的检测调控元件的瞬时表达系统。     

鸡输卵管上皮细胞瞬时表达系统(英文)

在开发利用生物反应器生产特定蛋白的研究中,若先用特异组织作原代培养,建立瞬时表达系统,对特定调控元件和融合基因进行分析,可大大缩短研究进程。本文首次报道用鸡输卵管上皮细胞原代培养, 建立瞬时表达系统的方法。输卵管细胞体外培养(Fig.1~3),在二、三周时间内仍能保持分泌卵清蛋白的功能。当分泌功能减弱时,若在培液中添加激素,一般一周后大部分细胞又可恢复分泌功能(Fig.4)。由于卵清蛋白是一种分泌蛋白,通过斑点免疫渗滤法可迅速简便的从培液中检测到(Fig.4)。为了验证培养细胞能否表达外源基因,在原代培养细胞中转染绿色荧光蛋白基因,可在细胞浆中显示绿色荧光(Fig.5),说明这是一个有效而又方便的检测调控元件的瞬时表达系统。     

The zona pellucida binds the mature form of an oviductal glycoprotein (oviductin).

The use of a monoclonal antibody (MAb) specific for the oviductal zona pellucida (ZP) of the hamster has demonstrated that a new antigen (oviductin) is acquired by the ZP during transit of the oocyte in the oviduct. The epitope that is recognized by the MAb bears a terminal N-acetyl-D-galactosamine residue. We conducted a study in order to determine whether this immunoreactivity of the oviductal ZP results from the addition of the terminal sugar residue to a preformed ZP protein or from the transfer of the mature glycoprotein produced by oviductal secretory cells. We measured the incorporation of [35S]methionine into proteins using four different incubation systems: cumulus oophorus (CO) alone, CO in the presence of oviductal fluid, CO co-incubated with empty oviducts, and CO within intact oviducts. At the end of the incubation period, the ZP, vitelli, dispersed cumulus without oocyte, oviducts, and culture medium were isolated and analyzed for their protein content by sodiumdodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE), autoradiography, and immunodetection. The cumulus cells synthesized several proteins, independently of the oviductal environment; however, none of these proteins corresponded to oviductin. The ZP and the vitelli of cumulus oophorus that were incubated either alone or in the presence of oviductal fluid did not contain radioactive oviductin. When the oviduct (empty or intact) was present in the incubation system, radiolabeled oviductin was synthesized and secreted into the incubation medium. The ZP picked up a detectable amount of radioactive antigen only in the system in which intact oviducts were incubated.(ABSTRACT TRUNCATED AT 250 WORDS)     

Mouse granulosa cells contribute more to the mRNA synthesis of mZP2 than oocyte does

In order to elucidate the biogenesis of mouse zona pellucida 2 (mZP2) protein, RT-PCR, and in situ hybridization were carried out to localize the expression of mouse ZP2 mRNA. Cumulus cells of the OCC (Oocyte-Cumulus cell Complex) were isolated from the oocytes after superovulation for the RNA extraction. The frozen sections of ovaries from adolescent and aged mice were prepared to hybridize with RNA probe of mouse ZP2. mRNA of ZP2 was detected in isolated cumulus cells by RT-PCR. Results of in situ hybridization showed that the mRNA of ZP2 was synthesized in both oocyte and granulosa cells at different folliculogenesis stages; and the expression of ZP2 mRNA in granulosa cells was stronger than that in oocyte; much weaker expression of mZP2 was detected in the follicles of aged mouse. These suggest that the entire amount of ZP2 mRNA generated in the granulosa cells layer should be much more than that in oocyte. Therefore, we think that the granulosa cells contribute more to the mZP2 mRNA synthesis than oocyte does.     

Immunocytochemical evidence for the transfer of an oviductal antigen to the zona pellucida of hamster ova after ovulation

The zona pellucida (ZP), a glycoprotein layer that encloses the mammalian oocyte, is formed during follicular development in the ovary, persists at the time of fertilization within the oviduct, and then surrounds the embryo until implantation in the uterus. Although the structure and chemical properties of the ZP have been extensively studied, the precise site of origin of the ZP remains a matter of controversy. Moreover, the mechanism of synthesis and secretion of the ZP constituents is not fully elucidated. We have recently developed monoclonal antibodies (MAbs) against oviductal ZP of the golden hamster. We have used one of these MAbs (an immunoglobulin G) and the protein A-gold technique to study the localization of the corresponding antigenic sites, and we report here their distribution in the oviduct and within the cumulus oophorus complex of the superovulated hamster. In the oviductal epithelium, immunolabeling was observed in non-ciliated secretory cells in structures involved in protein secretion. In the cumulus masses collected from the oviduct, the sites of immunoreactivity were localized exclusively in the ZP encompassing the oocyte. Gold particles were evenly distributed throughout the entire thickness of the ZP. Treatment of the cumulus masses with hyaluronidase prior to preparation of isolated oocytes for immunocytochemistry did not affect this uniformity. The ZP of the preovulatory oocytes in ovarian follicles was not labeled. Our study provides immunocytochemical evidence for the secretion of an oviductal antigen that becomes intimately associated with the ZP of the oocytes during their passage through the oviduct.     

小鼠年龄及卵丘—卵母细胞间联接的解离对卵母细胞体外成熟的影响

实验研究了小鼠卵母细胞体外过程中卵丘－卵母细胞间的相互作用。实验小鼠为雌性Ｂ６Ｄ２杂交一代。激素处理４８小时后分离出卵后天和卵母细胞复合体,并培养在含有次黄嘌呤的培养液中。２４小时后检查卵母细胞核成熟情况。     

Effect of oviductal and cumulus cells on zona pellucida and cortical granules of porcine oocytes fertilized in vitro with epididymal spermatozoa

The objective of this study was to evaluate the effects of porcine oviductal epithelial cell (POEC) monolayers and cumulus cells on the zona pellucida (ZP) and cortical granules (CG) of in vitro matured porcine oocytes. Denuded and cumulus-enclosed oocytes were exposed to POEC before or during in vitro fertilization (IVF). The functional effects of the co-culture system were the tested on the ZP resistance, measured by the time necessary to dissolve the ZP with 0.1% pronase, and the distribution and density of the cortical granules. CG density in the equator and cortex of each oocyte was evaluated by confocal microscopy after staining with fluorescein isothiocyanate-labelled peanut agglutinin (FITC-PNA). Both variables were assessed immediately after an in vitro maturation period (IVM group), 3 and 6h after culture with or without (Control) oviductal cells (Experiment 1) and 3h after insemination with frozen-thawed epididymal spermatozoa in the presence or absence (Control) of oviductal cells (Experiment 2). The time to dissolve the ZP of oocytes from IVM group was 440.4 +/- 61.7 s and no difference was observed among groups in Experiment 1. In contrast, the density of CG was affected; oocytes pre-incubated for 6h had a higher density than those pre-incubated for 3 h (P <0.001). Oocytes fertilized in vitro in the presence of POEC (Experiment 2) had a similar ZP digestion time as control oocytes 3 h after insemination. The presence of POEC during IVF as well as the presence of cumulus cells had no effect on the density and distribution of CG. However, a significant decrease in the density of CG was observed in the fertilized oocytes compared to in vitro matured oocytes (P <0.001). It is concluded that under the conditions employed the oviductal and cumulus cells in the perifertilization period had no effect on ZP hardening and CG density. However, an increase in CG density was observed when oocytes were maintained in culture. In addition, no hardening of ZP was observed after IVF, and denuded and cumulus-enclosed oocytes showed similar cortical reactions after insemination with epididymal spermatozoa regardless of the presence of POEC.     

Surface alterations of the bovine oocyte and its investments during and after maturation and fertilization in vitro

Surface characteristics of the bovine oocyte and its investments before, during, and after maturation, and fertilization in vitro were evaluated by scanning electron microscopy (SEM). Oocyte diameters were also measured during SEM analysis of the oocyte. The cumulus cells manifested a compact structure with minimal intercellular spaces among them in the immature oocytes. These became fully expanded with increased intercellular spaces after maturation in vitro, but contracted again after fertilization. The zona pellucida (ZP) showed a fibrous, open mesh-like structure in the maturing and matured oocytes. The size and number of meshes on the ZP decreased dramatically after fertilization. The vitelline surface of immature oocytes was characterized by distribution of tongue-shaped protrusions (TSPs) varying in density. After 10 and 22 hr of maturation incubation, oocyte surface microvilli (MV) increased to become the predominant surface structure, and TSPs decreased substantially. The vitelline surface of fertilized oocytes (at 6 and 20 hr) was similar to that of the matured oocytes, but unfertilized oocytes had less dense MV than did fertilized oocytes (at 20 hr). The diameter of the oocytes decreased from 99 to 80 μm during maturation and increased to 106 μm after insemination (P < 0.05). Membrane maturation was characterized by surface changes from a TSP-predominant pattern to a MV-predominant pattern. Thus, the bovine oocyte maturation process was found to involve the expansion of cumulus cells and the maturation of the ZP, which changes dramatically upon fertilization. Also, volumetric changes occurred in ooplasm processed for SEM following oocyte maturation and insemination. © 1994 Wiley-Liss, Inc.     

Regulation of oocyte maturation in the mouse: possible roles of intercellular communication, cAMP, and testosterone

Experiments were performed to determine if elevation of cumulus cell cAMP results in an increase in mouse oocyte cAMP while the heterologous gap junctions were intact. Both follicle-stimulating hormone (FSH) and cholera toxin induced a marked increase (>20-fold) in intracellular cAMP in isolated mouse cumulus cell-oocyte complexes in the presence of 3-isobutyl-1-methyl xanthine (IBMX). Concomitantly, both FSH and cholera toxin transiently inhibited resumption of meiosis of cumulus cell-enclosed but not denuded oocytes. The transient nature of the inhibitory effect produced by either FSH or cholera toxin was correlated with the cAMP level in the cumulus cell-oocyte complex. The inhibitory effect, however, was apparently not due to movement of cumulus cell cAMP to the oocyte via the functional heterologous gap junctions between cumulus cells and the oocyte. Radioimmunoassay of cAMP in oocytes free of attached cumulus cells or cumulus cell-enclosed oocytes exposed to either FSH or cholera toxin revealed that both groups of oocytes contained similar amounts of cAMP (about 0.14 fmole/oocyte). Metabolic labeling of cumulus cell-oocyte complexes with [³H]adenosine followed by incubation with either FSH or cholera toxin resulted in a marked increase in the amount of radiolabeled cAMP compared to that in unstimulated complexes. However, similar amounts of radiolabeled cAMP were found in oocytes derived from either stimulated or unstimulated complexes. Thus, we have not detected, using two methods of assay, that increasing the cAMP content of the cumulus cells results in any increase in the cAMP content of the oocyte. The apparent compartmentalization of cumulus cell cAMP elevated in response to either FSH or cholera toxin was not due to disruption of intercellular communication between the two cell types during the incubation; metabolic cooperativity was present between the two cell types and molecules of similar molecular weight and charge relative to that of cAMP were rapidly equilibrated between the two cell types. Testosterone potentiated the FSH/cholera toxin-induced transient inhibition of maturation of cumulus cell-enclosed oocytes. However, testosterone did not increase cAMP accumulation produced by either FSH or cholera toxin, decrease the rate of cAMP degradation, or promote movement of cumulus cell cAMP to the oocyte. Since cAMP elevated in response to FSH or cholera toxin appeared to be compartmentalized to cumulus cells and since neither FSH, cholera toxin, nor testosterone inhibited resumption of meiosis in denuded oocytes, it appears that the inhibitory effect promoted by FSH or cholera toxin is directly mediated by an agent other than cAMP, although cAMP generation is required for its action and that cumulus cells mediate the inhibition. These results are discussed in terms of a possible role of cAMP and steroids in regulating maturation in the mouse.     

Specific Deletion of AMP-Activated Protein Kinase (α1AMPK) in Murine Oocytes Alters Junctional Protein Expression and Mitochondrial Physiology

Oogenesis and folliculogenesis are dynamic processes that are regulated by endocrine, paracrine and autocrine signals. These signals are exchanged between the oocyte and the somatic cells of the follicle. Here we analyzed the role of AMP-activated protein kinase (AMPK), an important regulator of cellular energy homeostasis, by using transgenic mice deficient in α1AMPK specifically in the oocyte. We found a decrease of 27% in litter size was observed in ZP3-α1AMPK^-/- (ZP3-KO) female mice. Following in vitro fertilization, where conditions are stressful for the oocyte and embryo, ZP3-KO oocytes were 68% less likely to pass the 2-cell stage. In vivo and in cumulus-oocyte complexes, several proteins involved in junctional communication, such as connexin37 and N-cadherin were down-regulated in the absence of α1AMPK. While the two signalling pathways (PKA and MAPK) involved in the junctional communication between the cumulus/granulosa cells and the oocyte were stimulated in control oocytes, ZP3-KO oocytes exhibited only low phosphorylation of MAPK or CREB proteins. In addition, MII oocytes deficient in α1AMPK had a 3-fold lower ATP concentration, an increase in abnormal mitochondria, and a decrease in cytochrome C and PGC1α levels, suggesting perturbed energy production by mitochondria. The absence of α1AMPK also induced a reduction in histone deacetylase activity, which was associated with an increase in histone H3 acetylation (K9/K14 residues). Together, the results of the present study suggest that absence of AMPK, modifies oocyte quality through energy processes and oocyte/somatic cell communication. The limited effect observed in vivo could be partly due to a favourable follicle microenvironment where nutrients, growth factors, and adequate cell interaction were present. Whereas in a challenging environment such as that of in vitro culture following IVF, the phenotype is revealed.     

Actin synthesis is not regulated by granulosa cells in mouse growing and preovulatory oocytes

The synthesis and intracellular distribution of actin were studied in isolated dictyate and metaphase II mouse oocytes by (1) sodium dodecyl sulfate-polyacrylamide gel electrophoresis of newly synthetized oocyte protein and (2) cytochemical F-actin labeling by fluorescent phalloidin. Unpermeabilized, fully grown oocytes bound phalloidin intensely at the level of the zona pellucida (ZP), such ZP-associated actin representing a significant portion of total actin found in these cells. In contrast, phalloidin binding to ZP was very low in growing oocytes and was undetectable in ovulated, metaphase II eggs. When ZP-associated actin of fully grown oocytes was removed by prolongedly exposing oocytes to α-chymotrypsin, the amount of newly synthesized actin displayed by cumulus-enclosed oocytes was reduced to a level comparable to that shown by oocytes isolated from granulosa cells. We demonstrate that ZP-associated actin belongs to granulosa cell processes that remain within the ZP as a consequence of oocyte isolation procedures. We conclude that actin synthesis of mouse oocytes is not regulated by granulosa cells.