小鼠胚胎干细胞分化心肌细胞毒蕈碱受体的表达特征

为了探讨胚胎干细胞分化心肌细胞（ESCM）毒蕈碱受体的表达规律及β肾上腺素能系统对M2受体表达的影响,采用10^－4 mol/L维生素C体外诱导小鼠M13胚胎干细胞分化为心肌细胞,用RT-PCR检测到分化后的细胞表达心肌细胞特异性基因Nkx2.5和β肌球蛋白重链;用免疫荧光法检测到分化后的细胞表达心肌细胞特异性标志物α辅肌动蛋白.小鼠胚胎干细胞分化前表达M₁和M₂毒蕈碱受体,在分化过程中,M₁受体表达逐渐下降, M₂受体表达在第3 d显著下降,此后表达逐渐增加,在第14 d达到高峰;Western印迹结果显示,异丙肾上腺素明显抑制M₂受体的表达,选择性β₁肾上腺素受体拮抗剂CGP20712A明显上调其表达,而选择性β₂肾上腺素受体拮抗剂 ICI118551对其表达无影响.本实验表明,小鼠胚胎干细胞分化心肌细胞表达毒蕈碱受体, β肾上腺素能系统对M₂受体表达有调控作用.     

Embryonic Pituitary Adrenal Axis, Behavior Development and Domestication in Birds

ACTH and corticosterone exert opposite effects on the approachand imprinting behavior of newly hatched ducklings. Wild mallardand domesticated Pekin ducklings differ in the early posthatchperiod in both plasma corticosterone levels and approach/avoidancebehaviors. Injection of Pekin duckling embryos with pituitary—adrenocorticalhormones alters both later adrenal function and certain aspectsof posthatch behavior. These birds have behavioral and hormonalcharacteristics which resemble those of wild mallards. The hypothesisthat behavioral differences in wild and domesticated ducklingsresult from a higher level of pituitary adrenal function inthe wild embryo is explored. Although adrenocortical functionchanges during domestication in many species, evidence thatthe hormonal changes mediate the concomitant changes in approachand avoidance behavior remains inconclusive. Factors which causeadrenal function and early behaviors to differ in wild and domesticatedgenotypes must be sought in the gene action during embryonicdevelopment. Since imprinting behavior is modulated by pituitary—adrenalhormones, any factor which affects post—hatch adrenalfunction may potentially affect imprinting. Later behavior developmentin the adult is strongly dependent on neonatal experiences;and, therefore, hormonal modulation of early imprinting behaviormay constitute an important determinant of adult social behavior.     

Extrauterine Listeriosis in the Gravid Mouse Influences Embryonic Growth and Development

Gravid mice and other rodents inoculated with Listeria monocytogenes typically fail to clear an intrauterine infection and either succumb or expel their intrauterine contents. We took advantage of this property to investigate the effects of an extrauterine infection on parameters of pregnancy success. Pregnant mice were selected for our study if they showed no clinical signs of listeriosis following oral inoculation at 7.5 gestational days (gd), and had no detectable intrauterine colony forming units (cfu) at near term (18.5 gd). The range of oral doses employed was 10⁶-10⁸ cfu per mouse for two listerial serotype strains (4nonb and 1/2a). At all doses, inoculation resulted in a decrease in average near-term (18.5 gd) fetal weight per litter compared to sham inoculated controls. Additionally, embryonic death (indicated by intrauterine resorptions) was exhibited by some inoculated mice but was absent in all sham inoculated animals. In parallel experiments designed to detect possible loss of placental function, gravid uteruses were examined histopathologically and microbiologically 96 h after oral inoculation. Placental lesions were associated with high (> 10⁶), but not low (< 10²) or absent intrauterine cfu. In vitro, mouse embryonic trophoblasts were indistinguishable from mouse enterocytes in terms of their sensitivity to listerial exposure. A model consistent with our observations is one in which products (host or bacterial) generated during an acute infection enter embryos transplacentally and influences embryonic survival and slows normal growth in utero.     

Analysis of Cardiomyocyte Development using Immunofluorescence in Embryonic Mouse Heart

During heart development, the generation of myocardial-specific structural and functional units including sarcomeres, contractile myofibrils, intercalated discs, and costameres requires the coordinated assembly of multiple components in time and space. Disruption in assembly of these components leads to developmental heart defects. Immunofluorescent staining techniques are used commonly in cultured cardiomyocytes to probe myofibril maturation, but this ex vivo approach is limited by the extent to which myocytes will fully differentiate in culture, lack of normal in vivo mechanical inputs, and absence of endocardial cues. Application of immunofluorescence techniques to the study of developing mouse heart is desirable but more technically challenging, and methods often lack sufficient sensitivity and resolution to visualize sarcomeres in the early stages of heart development. Here, we describe a robust and reproducible method to co-immunostain multiple proteins or to co-visualize a fluorescent protein with immunofluorescent staining in the embryonic mouse heart and use this method to analyze developing myofibrils, intercalated discs, and costameres. This method can be further applied to assess cardiomyocyte structural changes caused by mutations that lead to developmental heart defects.     

AI429618基因在小鼠胚期表达的研究

目的:通过对与小鼠胚胎发育相关的新基因AI429618表达模式的初步分析为揭示小鼠胚胎发育机理提供研究基础.方法:利用Northern-blot和原位杂交方法对该基因进行表达谱分析.结果:Northern结果表明该基因在E12.5,E.15.5,E18.5三个时期都有所表达,并且在E12.5的小鼠胚胎中处于一个相对较高的转录水平,E15.5表达骤降并且基本上与E18.5(略高)持平;原位杂交结果显示E9.5,E10.5的小鼠胚胎中这一基因的表达集中在端脑、中脑、后脑、腮弓、前肢芽以及尾芽,E15.5的切片原位杂交中这一基因的表达信号在胸腺,肺,肝,肾,小肠中极为显著.结论:AI429618基因在小鼠胚胎发育期有着持续广泛的表达,可能对胚胎的正常发育起着重要的调控作用.     

mED2-一个小鼠胚胎发育的新基因

克隆参与胚胎发育的新基因并研究其表达规律和功能是揭示胚胎发育的基因调控机理的重要途径。囊胚形成和原肠形成是哺乳动物胚胎发育过程中的两个关键阶段。囊胚阶段发生了胚胎的第一次分化,是细胞多能性和分化的一个转折点。此时涉及的基因活动,既有维持胚胎干细胞全能性或多能性的基因活动,又有按照预定发育模式参与胚胎定向分化的基因活动。原肠期是胚胎发育过程中的第二个关键转折点,涉及到3个胚层的形成和细胞命运决定等多种变化。在这个时期胚胎获得了胎儿原基的所有信息,新组织的产生和细胞迁移的再生组织与形态发生、细胞增殖、细胞分化、模式形成等存在着非常复杂而相互协调的关联。大多数细胞正由原来的多潜能逐渐向寡潜能发展,控制组织器官形态建成的基因正逐渐开启。这两个时期的基因表达图式、特征和种类会有很大的差异和变化,因此研究这两个时期的新基因的表达规律和功能,将是了解胚胎发育的基因调控机理的重要途径。文章以这两个时期胚胎为原始材料,利用减法杂交方法克隆到一新的小鼠胚胎基因mED2,对其进行了表达规律和生物学功能的初步分析。RT-PCR-Southern和原位杂交实验表明,mED2基因转录水平具有发育阶段的依赖性;随着发育过程的进行,其表达主要在胚神经系统和中胚层衍生的组织表达。mED2基因活性的knockdown对于合子的卵裂和植入前早期胚胎发育均有抑制作用。亚细胞定位实验表明,mED2基因编码的蛋白基本定位于细胞核膜及其临近的内膜细胞器（粗糙内质网和高尔基体）。根据生物信息学分析,mED2蛋白可能为一跨膜蛋白且与含有硫氧还蛋白结构域的蛋白有部分匹配。由此推测mED2基因参与了小鼠植入前早期胚胎发育,其基因产物可能通过蛋白之间的相互作用,即对蛋白进行后期修饰、折叠及行使分子伴侣等作用来活化或抑制其靶蛋白的活性,进而参与小鼠的早期胚胎发育。     

与小鼠胚胎发育相关新基因0610038D11Rik的研究

目的:初步分析与小鼠胚胎发育相关的新基因0610038D11Rik表达模式及生物学功能.方法:采用RT-PCR,全胚胎原位杂交和Northern Blotting技术对该基因进行表达谱分析;细胞免疫染色对其进行细胞结构定位.结果:全胚胎原位杂交结果显示0610038D11Rik在胚胎E9.5的端脑、间脑、菱脑和听泡处有较强的信号.随着神经管逐渐关闭,胚胎E10.5在背部神经嵴,神经管区也出现表达信号.E11.5时除了在上述部位表达外,心脏部位也检测到较弱的信号.RT-PCR和Northern Blot实验发现该基因在小鼠胚胎发育直至出生后均有持续性分布,并且在发育中后期的脑、心脏、肺、肾、肝脏,肌肉和舌等多种重要脏器广泛表达.细胞定位表明其主要集中在核内和细胞质中.结论:0610038D11Rik基因在小鼠的脑神经系统和多器官表达,提示该新基因可能在这些组织的发育过程中发挥重要的作用.     

Mouse Embryonic Development in a Serum-free Whole Embryo Culture System

Mid-gestation stage mouse embryos were cultured utilizing a serum-free culture medium prepared from commercially available stem cell media supplements in an oxygenated rolling bottle culture system. Mouse embryos at E10.5 were carefully isolated from the uterus with intact yolk sac and in a process involving precise surgical maneuver the embryos were gently exteriorized from the yolk sac while maintaining the vascular continuity of the embryo with the yolk sac. Compared to embryos prepared with intact yolk sac or with the yolk sac removed, these embryos exhibited superior survival rate and developmental progression when cultured under similar conditions. We show that these mouse embryos, when cultured in a defined medium in an atmosphere of 95% O₂ / 5% CO₂ in a rolling bottle culture apparatus at 37 °​C for 16-40 hr, exhibit morphological growth and development comparable to the embryos developing in utero. We believe this method will be useful for investigators needing to utilize whole embryo culture to study signaling interactions important in embryonic organogenesis.     

The Expression Pattern of Classical MHC Class I Molecules in the Development of Mouse Central Nervous System

Classical major histocompatibility complex (MHC) class I, first identified in the immune system, is also expressed in the developing and adult central nervous system (CNS). Although the MHC class I molecules have been found to be expressed in the CNS of different species, a necessary step to elucidate the temporal and spatial expression patterns of MHC class I molecules in the brain development has never been taken. Frozen sections were made from the brains of embryonic and postnatal C57BL/6 J mice, and the expression of H-2D^b mRNA was examined by in situ hybridization. Immunofluorescence was also performed to define the cell types that express H2-D^b in P15 mice. At E10.5, the earliest stage we examined, H2-D^b was expressed in neuroepithelium of the brain vesicles. From E12.5 to P0, H2-D^b expression was mainly located at cerebral cortex, neuroepithelium of the lateral ventricle, neuroepithelium of aquaeductus and developing cerebellum. From P4 to adult, H2-D^b mRNA was detected at olfactory bulb, hippocampus, cerebellum and some nerve nuclei. The major cell types expressing H-2D^b in P15 hippocampus, cerebral cortex and olfactory bulb were neuron. H2-K^b signal paralleled that of H2-D^b and the expression levels of the two molecules were comparable throughout the brain. The investigation of the expression pattern of H-2D^b at both embryonic and postnatal stages is important for further understanding the physiological and pathological roles of H2-D^b in the developing CNS.     

Expression of Catenins during Mouse Embryonic Development and in Adult Tissues

Classical cadherins are cell-surface glycoproteins that mediate calcium-dependent cell adhesion. The cytoplasmic domain of these glycoproteins is linked to the cytoskeleton through the catenins (α, β and γ). The catenins are intracellular polypeptides that are part of a complex sub-membranous network modulating the adhesive ability of the cells. One approach to elucidate the role of these molecules in the cell is to investigate their distribution during mouse development and in adult tissues. This study reports that catenins are widely expressed but in varying amounts in embryos and adult tissues. The expression of all three catenins is most prominent in the adult heart muscle and in epithelia of all developmental stages. In other embryonic and adult tissues, lower expression of catenins was detected, e.g., in smooth muscle or connective tissue. Catenins are coexpressed with various cadherins in different tissues. Gastrulation is the first time during embryogenesis when a discrepancy occurs between the expression of catenins and E-cadherin. E-cadherin expression is suppressed in mesodermal cells but not the expression of catenins. This discrepancy suggests that another cadherin may interact with catenins. Similarly, E-cadherin is generally expressed in adult liver but not in the regions surrounding the central veins. In contrast, catenins are uniformly expressed in the liver, suggesting that they are associated with other cadherins in E-cadherin negative cells. Finally, the three catenins are not always concurrently expressed. For example, in peripheral nerves, only β-catenin is observable, and in smooth muscle plakoglobin is not detectable.     

Cell Adhesion as a Basis of Pattern in Embryonic Development

The development of the modern methodologies of cell biologyin the fifties and sixties and of molecular biology in the seventiesand eighties has led to a reductionist view of embryonic developmentthat centers on the cell and the gene as the functional unitsof development. The functional units in most inductive and morphogeneticprocesses in the embryo are not single cells, however, but ratherare collectives of interacting cells that give rise to the tissuesand organs. Can these methodological developments reconcilea molecular analysis with the fact that form arises epigeneticallyfrom the increasing number of embryonic cells during development?To answer this question one must link genetic regulation tomechanochemical processes that coordinate cell division, cellmovement and cell death. Recent studies of cell adhesion suggestthat one such link is provided by cell adhesion molecules (CAMs)that mediate cell-cell binding. These studies suggest that CAMsare involved in defining cell collectives and their bordersas they interact during inductive events in morphogenesis. AlthoughCAMs cannot be considered the "cause" of induction, they playkey roles among the complex causal chains of inductive interactionsinvolving hormones and growth-factors, extracellular matrixcomponents and cellular receptors. We provide here a brief summaryof modern developments in the field centered about the functionof CAMs in morphogenesis and using recent experimental resultsin the developing feather as a paradigmatic example.     

Development of Mitochondrial Activity in Pea Cotyledons Following Imbibition; Influence of the Embryonic Axis

The development of mitochondria in cotyledons during the initialstages following imbibition and the subsequent degenerationwere faster when the embryonic axis was attached. This was moreclearly demonstrated when mitochondrial activity was determinedusing malate or -oxoglutarate as substrate rather than NADHor succinate. Cycloheximide did not inhibit the initial developmentof mitochondria in attached cotyledons, although it inhibitedthe incorporation of ¹⁴C-amino acid into protein. Abscisic acidinhibited almost completely the initial increase in mitochondrialactivities of attached cotyledons. The activities of severalenzymes in mitochondrial fractions were almost the same in attachedand detached cotyledons during 4 d after, imbibition. The degenerationof mitochondria was not accompanied by the loss of enzymes.It was inferred that the initial development and the subsequentdegeneration of mitochondria in cotyledons during 4 d afterimbibition was brought about by the structural improvement anddisorganization of mitochondria, respectively. The initial differencesin the development of mitochondrial activities between attachedand detached cotyledons were suggested to be attributable todifferences in the development of the activities of electrontransfer pathway from endogenous NADH to ubiquinone.     

对与小鼠胚胎发育相关的印记基因Mcts2的研究

目的：对与小鼠胚胎发育相关的印记基因Mcts2表达模式及生物学功能做初步的分析。方法：采用切片原位杂交,全胚胎原位杂交,Northern blot和real-time PCR对该基因进行了表达谱的分析。结果：切片原位杂交结果显示Mcts2基因在E13.5和E15.5胚胎中的脑、舌、心脏、肺脏、肝脏、肾脏等重要脏器中都有普遍表达。全胚胎原位杂交结果显示Mcts2基因在E10.5胚胎中的前脑、前肢、尾芽中出现较强的信号,其他部位信号较弱。Northern和Real-time PCR实验分析了Mcts2基因在E12.5,E15.5,E18.5胚胎和新生小鼠的脑、心脏、肺脏、肝脏和肾脏中的表达谱,发现Mcts2基因在这几个主要发育时期都有普遍表达,在E15.5胚胎中表达信号最为强烈。结论：Mcts2基因在小鼠胚胎的发育的各主要时期的重要脏器中都有普遍的表达,提示该基因在小鼠胚胎发育过程中起到了重要的作用。     

UTX and UTY Demonstrate Histone Demethylase-Independent Function in Mouse Embryonic Development

UTX (KDM6A) and UTY are homologous X and Y chromosome members of the Histone H3 Lysine 27 (H3K27) demethylase gene family. UTX can demethylate H3K27; however, in vitro assays suggest that human UTY has lost enzymatic activity due to sequence divergence. We produced mouse mutations in both Utx and Uty. Homozygous Utx mutant female embryos are mid-gestational lethal with defects in neural tube, yolk sac, and cardiac development. We demonstrate that mouse UTY is devoid of in vivo demethylase activity, so hemizygous X^Utx− Y⁺ mutant male embryos should phenocopy homozygous X^Utx− X^Utx− females. However, X^Utx− Y⁺ mutant male embryos develop to term; although runted, approximately 25% survive postnatally reaching adulthood. Hemizygous X⁺ Y^Uty− mutant males are viable. In contrast, compound hemizygous X^Utx− Y^Uty− males phenocopy homozygous X^Utx− X^Utx− females. Therefore, despite divergence of UTX and UTY in catalyzing H3K27 demethylation, they maintain functional redundancy during embryonic development. Our data suggest that UTX and UTY are able to regulate gene activity through demethylase independent mechanisms. We conclude that UTX H3K27 demethylation is non-essential for embryonic viability.     

小鼠早期胚胎发育过程中细胞凋亡及凋亡基因表达的检测

小鼠早期胚胎发育过程中凋亡现象大量存在,细胞凋亡与凋亡基因表达有关。应用彗星电泳法检测小鼠早期胚胎凋亡情况;应用巢式RT-PCR、免疫组化的方法检测了Bcl-2家族成员(Bax、Bcl-2、Bak、Bcl-xl)的表达变化情况。结果显示:随着胚胎细胞数目的增加,凋亡比率逐渐增大;Bax表达量在整个过程中基本不变,Bcl-2表达量逐渐上调,Bak、Bcl-xl的表达量逐渐降低。对小鼠早期胚胎发育过程中的基因表达研究对于揭示早期胚胎发育的机制有重大的意义。     

小鼠胚胎核移植实验的初步报告

Abstract:Oocytes recovered from Fallopian tubes of female mice of Kun-Ming-Bai strain were enucleated by microsurgery and a single blastomere aspirated from 2-cell stage embryo derived from C57 was injected into the perivitelline space of earh enucleated oocyte.Then those coupled cells were exposed to PEG solution and cultured in an atmosphere of 5% Co2 at 37℃ for four hours.After that,couples which had been fused to one cell were transferred to the oviducts of pseudopregnant foster mothers.Six offsprings were obtained from this transplantation. Key words:Mouse,Embryo,Nuclear transplantation     

小鼠胚胎干细胞的培养

目的:建立小鼠胚胎干细胞(embryonic stem cells,ES)的培养方法。方法:制备G418抗性的原代小鼠胚胎成纤维细胞,经丝裂霉素C处理后成滋养层细胞,将小鼠胚胎干细胞复苏后,应用含白血病抑制因子的ES细胞培养液,培养小鼠ES细胞,观察集落的生长情况,并在光镜下观察细胞形态。结果:小鼠胚胎成纤维细胞生长良好,ES细胞呈克隆状生长,且保持未分化状态。结论:建立了小鼠胚胎干细胞培养的有效方法,为下一步基因打靶奠定基础。