Scribble在原肠期鸡胚表达的研究

旨在研究极性脚手架蛋白Scibble(Scrib)在原肠期的表达及意义,明确Scrib在早期鸡胚发育中的作用.以含有全长人Scrib的质粒pEGFP-N2-Scrib作为模板克隆出N端一段770 bp左右的片段,从而构建一个新的质粒pSPT18-Scrib;以pSPT18-Scrib为模板进行体外转录制备cRNA探针;并采用原位杂交的方法用此探针检测鸡原肠胚各个时期Scrib的表达情况.结果显示,Scrib在鸡胚四期开始逐渐在原条顶端及两侧的外胚层表达,并随着发育过程向外胚层两侧蔓延扩散,并且在发展到十期时呈现包括神经管和体节在内的广泛的弥散性表达.Scrib的表达规律提示在胚胎发育早期Scrib对外胚层细胞迁移和分化以及而后的器官发生起到重要的作用,为进一步研究Scrib在鸡胚早期发育中的作用提供参考.     

鸡Vezf1基因RCAS干扰载体构建及鉴定

为研究Vezf1基因在鸡胚早期发育过程中的作用,构建了针对鸡Vezf1基因的RCAS病毒RNA干扰载体,分别在鸡胚细胞和胚胎水平对Vezf1基因实施沉默,通过Real-time PCR和原位杂交法检测目的基因m RNA表达水平。结果表明,基于RCAS病毒的干扰载体可以在鸡胚成纤维细胞和活体鸡胚中成功沉默Vezf1基因的表达。此研究为利用鸡胚模型深入了解Vezf1基因在早期发育过程中的作用提供了素材。     

兔植入前移核胚中发育相关基因的差异表达分析

与早期胚胎发育相关的一些重要基因异常表达致使克隆胚细胞核的再程序化过程受阻,是导致动物克隆失败的重要原因.为了分离鉴定再程序化相关基因,我们改进了mRNA差异显示技术,成功地建立了单胚差示技术体系.以不同发育时期的兔克隆胚（MⅡ卵、2细胞、4细胞、8～16细胞克隆胚胎）为材料进行单胚差示, 分离了80个差异片段.经反向RNA印迹验证、亚克隆、序列分析及NCBI GenBank数据库检索, 结果表明：A028片段与CstF3基因有93％的同源性, 在早期胚胎发育过程中的表达有阶段特异性, 该基因在兔克隆胚的早期发育过程中起重要作用.RNA印迹显示：该基因在所检测的组织中,只在卵巢中有表达.这项研究为再程序化相关基因全长的克隆及功能研究奠定了良好的基础.     

被子植物胚柄研究进展

胚柄在胚胎发育过程中是一个暂时性的结构, 但却起着为胚体提供营养和生长调节因子的作用。相对胚体而言, 胚柄具有细胞类型单一、结构相对独立及发育时间短等特点, 其在胚胎发育的基因调控和细胞命运决定研究中具有独特的优势。该文从胚柄的形成及特点、胚柄在胚胎发育中的作用、信号传递系统对胚柄的影响以及与胚柄相关基因的功能等方面进行综述, 以期为研究胚柄在胚胎发育过程中所起的作用以及胚柄的命运决定提供参考信息。     

哺乳动物早期胚胎发育及干细胞分化过程中的表观遗传调控研究

哺乳动物早期发育过程伴随着细胞的增殖、迁移以及细胞命运的层级特化。体外干细胞系在合适刺激下的定向分化可以部分模拟早期胚胎发育及细胞命运决定的历程。在细胞命运层级特化过程中,细胞通过多重调控机制协调全能性相关基因的维持及关闭、特定谱系关键基因的时空特异性表达,表观遗传调控在该过程中发挥着十分重要的作用。开展针对体内胚胎发育及体外干细胞定向分化过程中细胞命运决定表观调控机制的研究,将推动对发育生物学基本科学问题的认识,同时也将进一步推动再生医学的发展,最终服务于国家人口健康发展战略。     

两个推测的染色质重塑腺苷三磷酸酶基因功能冗余地调控拟南芥种子和胚胎发育

种子及胚胎发育是被子植物个体发育的重要起始阶段,相关调控基因的阐明将有助于认识种子及胚胎发育的分子机制。预测同源基因CHR12和CHR23编码拟南芥依赖于ATP的染色质重塑核心组分—-月泉苷三磷酸酶。T-DNA插入缺失突变体鉴定、遗传杂交及转基因实验表明,两个基因同时缺失阻滞种子的正常发育;胚胎发育进程显微观察表明,与野生型及各自单缺失突变体相比,双重缺失突变体的胚胎发育停滞到了心形胚后期或鱼雷胚早期。这表明CHR12和CHR23在拟南芥种子及胚胎发育过程中功能冗余地发挥着重要调控作用。     

鸡胚原肠胚期原条细胞命运决定于其所处的局部微环境

在果蝇、斑马鱼、鸡等三胚层动物胚胎早期发育的原肠胚期,原条两侧的上胚层细胞进入原条经历上皮-间充质转化(EMT),迁移进入囊胚腔,形成松散的中胚层细胞,位于原条不同部位的细胞其迁移路线和分化命运不同,如前部原条细胞贡献于体节和心脏等,而后部原条细胞则迁移至胚外形成血岛。为了研究细胞的迁移途径及分化命运是否会随着细胞所处不同部位微环境的改变而改变,利用传统的移植技术,将宿主鸡胚原条前部的一部分细胞用GFP阳性的相同时期鸡胚原条组织替换,培养一段时间后,用荧光体视显微镜追踪GFP阳性细胞的迁移途径。结果发现,从供体原条后部移植到宿主原条前部的细胞遵循原条前部细胞迁移的路线,反之亦然;原位杂交结果显示移植后的GFP阳性细胞分化为所处部位的细胞类型。上述结果表明:鸡胚原肠胚期原条细胞迁移和分化的命运决定于细胞所处的微环境或者说局部基因表达的时空性。     

5-脱氧杂氮胞苷抑制小鼠附植前的胚胎发育

DNA甲基化在哺乳动物发育过程中有关键作用．在小鼠附植前胚胎发育过程中,DNA甲基化一直处于动态变化过程中．通过将体外受精胚在5-AZA-CdR中持续培养,研究5-AZA-CdR对小鼠附植前胚胎发育的影响,为附植前胚胎发育机理的研究及5-AZA-CdR的毒副作用研究提供试验基础．从原核期加入不同浓度的5-AZA-CdR时,胚胎不能发育到桑椹胚(0.2 和1.0 μmol/L)和4-细胞胚(5.0 μmol/L);从2-细胞期加入时,胚胎阻滞于未致密化的8-细胞(0.2 和1.0 μmol/L)和3/4-细胞期(5.0 μmol/L);而当从4-细胞加入时,虽然胚胎能够发育到早期桑椹胚,但发育比例同对照相比显著降低(P < 0.05)．进一步检测凋亡、基因组DNA甲基化和整体转录活性,结果显示,高浓度的5-AZA-CdR导致8-细胞和早期桑椹胚发生早期凋亡,而低浓度的5-AZA-CdR引起8-细胞和早期桑椹胚基因组DNA甲基化的降低和转录活性的降低,并且这种降低呈浓度依赖性．所以加入低浓度的5-AZA-CdR时,胚胎的DNA甲基化降低,引起转录活性的降低,进而导致胚胎发育的停滞．     

Sonic hedgehog在鸡胚法氏囊发育过程中的表达研究

Sonic hedgehog(Shh)是Hedgehog(Hh)家族中的一员,在胚胎发育和器官形成过程中发挥重要作用.法氏囊是鸟类所特有的中枢免疫器官,在机体的免疫防御方面发挥重要作用.利用切片原位杂交的方法探究Shh基因在鸡胚法氏囊发育过程中的表达模式,检测发现Shh基因主要在鸡胚法氏囊的囊下上皮细胞、血管周围上皮细胞以及网状细胞中表达.     

鸡胚模型在生物研究中的应用进展

实验动物模型在预防、诊断、治疗疾病和探讨疾病的发生机制等方面起到了至关重要的作用。鸡胚发育过程清楚,利用鸡胚本身的结构特点,可作为研究与胚胎发育相关的生物学实验模型。另外,鸡胚绒毛尿囊膜（CAM）血管丰富,是天然免疫缺陷宿主,可作为血管药理学、肿瘤学等方面研究的一个较为理想的实验模型。本文综述了鸡胚模型在生物实验研究中的应用进展。     

Developmental patterning deciphered in avian chimeras

I started my scientific carer by investigating the development of the digestive tract in the laboratory of a well-known embryologist, Etienne Wolff, then professor at the Collège de France. My animal model was the chick embryo. The investigations that I pursued on liver development together with serendipity, led me to devise a cell-marking technique based on the construction of chimeric embryos between two closely related species of birds, the Japanese quail ( Coturnix coturnix japonica ) and the chick ( Gallus gallus ).
The possibility to follow the migration and fate of the cells throughout development from early embryonic stages up to hatching and even after birth, was a breakthrough in developmental biology of higher vertebrates.
This article describes some of scientific achievements based on the use of this technique in my laboratory during the last 38 years.     

Appearance and distribution of entactin in the early chick embryo

Abstract. Entactin is a sulfated glycoprotein of basement membranes and recent data indicate that it may play a major role in extracellular matrix (ECM) assembly and in modulating the activities of the other molecular components. We investigated the time of appearance and subsequent distribution of entactin during the earliest stages of morphogenesis and its involvement in the first major cellular migrations and interactions in the chick embryo. Entactin is first detected in the epiblast and in the hypoblast at the blastula stage. The accumulating ECM displays intense presence of entactin in the space between the epiblast and the hypoblast at late blastula. Entactin is increasingly abundant in the neural plate and in the ECM and also at least transiently in many mesodermal tissues such as the notochord, the developing heart and somites in the early chick embryo. Immuno-gold labeling revealed a punctate pattern of entactin distribution in the ECM during the gastrula, neurula and at later stages and at all levels within the embryo. Because of its early appearance in more than one germ layer, entactin may be important in the formation of most embryonic structures. Entactin is detected at the same developmental time and co-localizes with laminin. Antibodies to entactin do not interfere with triggering of the first major cell movements but perturb directional migration of these cells. It would seem that entactin plays a functional role in the directed migration of cells and does not seem to affect cell adhesion during the period of the first morphogenetic events in the early chick embryo.     

Appearance and distribution of entactin in the early chick embryo

Abstract. Entactin is a sulfated glycoprotein of basement membranes and recent data indicate that it may play a major role in extracellular matrix (ECM) assembly and in modulating the activities of the other molecular components. We investigated the time of appearance and subsequent distribution of entactin during the earliest stages of morphogenesis and its involvement in the first major cellular migrations and interactions in the chick embryo. Entactin is first detected in the epiblast and in the hypoblast at the blastula stage. The accumulating ECM displays intense presence of entactin in the space between the epiblast and the hypoblast at late blastula. Entactin is increasingly abundant in the neural plate and in the ECM and also at least transiently in many mesodermal tissues such as the notochord, the developing heart and somites in the early chick embryo. Immunogold labeling revealed a punctate pattern of entactin distribution in the ECM during the gastrula, neurula and at later stages and at all levels within the embryo. Because of its early appearance in more than one germ layer, entactin may be important in the formation of most embryonic structures. Entactin is detected at the same developmental time and co-localizes with laminin. Antibodies to entactin do not interfere with triggering of the first major cell movements but perturb directional migration of these cells. It would seem that entactin plays a functional role in the directed migration of cells and does not seem to affect cell adhesion during the period of the first morphogenetic events in the early chick embryo.     

PTEN抑制胚胎原肠胚形成期EMT的过程

PTEN(Phosphatase and tensin homolog)是一种重要的抑癌基因,具有非常广泛的生物学活性,例如在细胞的生长发育、迁移、凋亡和信号传导等均发挥重要作用。PTEN基因表达始于在胚胎早期的上胚层,而后主要出现在神经外胚层和胚胎中胚层结构,表明PTEN可能参与胚胎早期发育过程的细胞迁移、增殖和分化。文章主要应用在体改变早期胚胎PTEN的表达水平来观察其对上胚层至中胚层细胞转换—EMT(Epithe-lial-mesenchymal transition)的作用。首先,原位杂交结果提示,内源性PTEN表达在原条以及之后的中胚层细胞结构如体节等。在体PTEN转染实验,体外培养至HH3期的鸡胚胎,转染Wt PTEN-GFP或移植Wt PTEN-GFP原条组织至未转染的同时期的宿主胚胎相同部位后,观察到PTEN转染细胞大都由上胚层迁移至原条并滞留于原条,不再参与中胚层细胞形成。移植实验也得到相似结果,发现在Wt PTEN-GFP阳性原条组织移植后很少细胞迁移出原条。另外在原肠胚期PTEN siRNA降调胚胎一侧PTEN基因后,降调侧中胚层细胞数明显少于正常侧。上述研究结果均提示PTEN基因在胚胎原肠胚期三胚层形成过程中可能具有抑制EMT的作用。     

Hepten inhibitors of the endogenous galactose binding lectins and anti-lectin antibodies inhibit primitive streak formation in the early chick embryo

The early chick blastoderm expresses two endogenous galactose-bindinglectins of 14 kDa and 16 kDa. We have studied the effect thelectin hapten inhibitors thiodigalactoside and the syntheticneoglycoprotein lactosyl-bovine serum albumin as well as polyclonalanti-lectin antibodies on the development of early chick embryoscultured in a defined medium. Controls consisted of maltose,maltosyl bovine serum albumin and rabbit IgG. Embryos treatedat the onset of cell migration during early gastrulation underwentblastoderm retraction with decrease in surface area. In addition,they exhibited a lack of demarcation between the presumptiveembryonic area (area pellucida) and the presumptive extraembryonicarea (area opaca). These blastoderms also lacked a primitivestreak, that is, the structure that forms in the area pellucidaduring gastrulation as cell migrate to form the endodermal andmesodermal layers of the embryo. Embryos treated at later stagesof gastrulation showed development similar to that of controlsin that they were able to undergo early organogenesis. The resultssuggest that lectin mediated mechanisms are essential for themigratory movements of early gastrulation and that, at lategastrulation, other mechanisms exist in the embryo to compensatefor lectin function. blastoderm chick embryo galectin     

Extracellular matrix organized in embryonic cavities during induction of the embryonic axis in chick embryo

Extracellular matrix (ECM) is detected as short, disorganized fibrils in the forming embryonic extracellular spaces shortly prior to the first morphogenetic cellular movements and interactions in the early chick embryo. As development progresses, the ECM is organized into an intricate network spanning the embryonic cavities. This dynamic entity undergoes relatively rapid changes in its organization pattern during the developmental period from morula to the induction of the neural plate. The ECM seems to preserve the exquisite architecture of the embryo and could guide migrating cells into defined pathways in the early embryo.     

Endogenous patterns of BMP signaling during early chick development

Bone morphogenetic proteins (BMPs) are members of the transforming growth factor beta superfamily signaling molecules that play important roles in a wide variety of developmental processes. In this study, we have used an antibody specific for the phosphorylated and activated form of Smad1 to examine endogenous patterns of BMP signaling in chick embryos during early development. We find complex spatial and temporal distributions of BMP signaling that elucidate how BMPs may function in multiple patterning events in the early chick embryo. In the pregastrula embryo, we find that BMP signaling is initially ubiquitous and is extinguished in the epiblast at the onset of primitive streak formation. At the head process stage, BMP signaling is inactivated in prospective neural plate, while it is strongly activated at the neural plate border, a region which is populated by cells that will give rise to neural crest. During later development, we find a dynamic spatiotemporal activation of BMP signaling along the rostrocaudal axis, in the dorsal neural tube, in the notochord, and in the somites during their maturation process. We discuss the implication of our results for endogenous functions of BMP signaling during chick development.     

The effects of retinoic acid on heart formation in the early chick embryo.

The vitamin A derivative retinoic acid has previously been shown to have teratogenic effects on heart development in mammalian embryos. The craniomedial migration of the precardiac mesoderm during the early stages of heart formation is thought to depend on a gradient of extracellular fibronectin associated with the underlying endoderm. Here, the effects of retinoic acid on migration of the precardiac mesoderm have been investigated in the early chick embryo. When applied to the whole embryo in culture, the retinoid inhibits the craniomedial migration of the precardiac mesoderm resulting in a heart tube that is stunted cranially, while normal or enlarged caudally. Similarly, a local application of retinoic acid to the heart-forming area disrupts the formation of the cardiogenic crescent and the subsequent development of a single mid-line heart tube. This effect is analogous to removing a segment of endoderm and mesoderm across the heart-forming area and results in various degrees of cardia bifida. At higher concentrations of retinoic acid and earlier developmental stages, two completely separate hearts are produced, while at lower concentrations and later stages there are partial bifurcations. The controls, in which the identical operation is carried out except that dimethyl sulphoxide (DMSO) is used instead of the retinoid, are almost all normal. We propose that one of the teratogenic effects of retinoic acid on the heart is to disrupt the interaction between precardiac cells and the extracellular matrix thus inhibiting their directed migration on the endodermal substratum.     

Acceleration of early chick embryo morphogenesis by insulin is associated with altered expression of embryonic genes

In the present study, we show that insulin accelerates early morphogenesis in gastrulating chick embryo explants cultured in vitro, whereas antiserum to insulin adversely affects this process. Comparison between length of body axis of control and treated embryos clearly brings out the significant acceleration of development by excess insulin (0.175 to 17.5 nM). In embryos treated with 87.5 and 175 nM insulin, a high occurrence of abnormalities is observed. Treatment of embryos with antiserum to porcine insulin results in a high percentage of abnormalities, particularly in the forming neural tube. In situ hybridization of whole embryos using digoxigenin-labeled riboprobes showed that insulin modifies the expression of crucial developmental genes within 2 hours. While Brachyury, a pan-mesodermal marker gene, ERNI, the earliest known marker for neural induction in chick, and noggin, important in neural tube patterning, are upregulated, expression of goosecoid, necessary for gastrulation movements, does not appear to be significantly altered. During the same time, insulin does not exert any mitogenic effect on chick embryonic cells as assessed by nuclear counts. These findings demonstrate that insulin plays an important role in the early morphogenesis of the chick embryo. The function of insulin appears to be mediated by specific genes which orchestrate pattern formation during early development.     

The effect of vitamin A (retinoids) on pattern formation implies a uniformity of developmental mechanisms throughout the animal kingdom

Retinoids are low molecular weight, lipophilic derivatives of vitamin A which have a profound effect upon the development of a diverse array of animals. Here, I review these effects on Invertebrates: a colonial hydroid, a colonial ascidian, and Vertebrates: the regenerating amphibian limb, the developing chick limb bud, the regenerating amphibian tail, the anteroposterior axis of the early embryo, the developing chick embryo skin. There is a striking uniformity of effect of retinoids on pattern formation when applied to these diverse organisms. The majority react by being posteriorized in their development, although additional effects can also be seen. Several hypotheses which can explain these results are discussed along with the deduction that they lead to: retinoids may be components of a universal developmental mechanism or they may simply act in a similar way to alter a universal developmental mechanism. In either case the experimental analysis of retinoid effects on development has important implications for the evolution of developmental mechanisms.