Tbx1基因功能下调影响斑马鱼Tbx20和Tbx2表达

目的采用吗啡啉修饰反义寡核苷酸显微注射方法下调斑马鱼Tbx1基因表达,研究斑马鱼Tbx1基因功能下调对其他两个T盒基因Tbx20和Tbx2表达的影响。方法采用吗啡啉修饰的反义寡核苷酸显微注射方法抑制斑马鱼Tbx1基因表达,分别将2.5、5、8、10 ng吗啡啉反义寡核苷酸在斑马鱼0-4细胞期注入胚胎,并构建Tbx20,骨形成蛋白2b（Bmp2b）和Tbx2反义RNA探针,进行整体原位杂交,观察Tbx1基因下调对Tbx20、Bmp2b及Tbx2表达的影响。结果Tbx1吗啡啉寡核苷酸显微注射组胚胎表现出鳃弓、耳囊、心血管系统和胸腺的发育异常。Tbx1基因下调导致Tbx20的表达出现改变,Tbx20在心脏的表达与对照组相比明显下调,神经元的表达范围明显缩小;Tbx1基因功能下调会导致Bmp2b在心脏和咽囊的表达减低,Bmp2b在后部咽囊的表达较前部咽囊减低得更为明显;Tbx1基因功能下调胚胎,Tbx2在鳃弓的表达模式发生改变,48 hpf,Tbx2在鳃弓的表达出现从后向前逐渐减低,鳃弓的表达范围较对照组明显缩小。结论Tbx1在发育过程中,会对其他T盒基因,如Tbx20和Tbx2具有激活或抑制的调控作用。Tbx1对Tbx20的作用可能是通过影响Bmp2b的途径,继发地影响Tbx20的表达。Tbx1基因功能下调,会改变Tbx2在鳃弓的表达模式。     

RNA干扰ABCE1基因后可增加肺癌95-D/NCI-H446细胞的E-钙黏附蛋白表达并减低细胞侵袭力

研究ABCE1对肺癌(95-D和 NCI-H446)细胞的作用．使用RNA干扰技术,抑制ABCE1基因的表达,通过Western blot 分析及FACS检测,观察ABCE1基因对E-钙黏附蛋白在95-D/NCI-H446细胞表达的影响;运用transwell 侵袭实验,观察M95-D/ NCI-H446细胞侵袭力的变化．RNA干扰ABCE1基因后,实验组与对照组相比,在48 h后可显著抑制肺癌(95-D和 NCI-H446)细胞ABCE1蛋白的表达,同时,伴随E-钙黏附蛋白的高表达,以及细胞侵袭力的降低． ABCE1基因与E-钙黏附蛋白相关,抑制ABCE1基因可增加肺癌95-D/NCI-H446细胞的E-钙黏附蛋白的表达,减低细胞的侵袭力．     

Connexin43基因抑制对斑马鱼心血管系统发育的影响

为了研究cx43基因抑制对斑马鱼胚胎心血管系统发育的影响,针对cx43的翻译起始位点设计两个吗啉修饰的反义寡核苷酸抑制其表达,在斑弓鱼受精卵一到两细胞期混合注射并且验证其有效性.注射后用原位杂交和原位免疫荧光检测心脏标志基因的表达以及心脏的表型,同时利用显微荧光造影和原位杂交检测血管的发育情况.用心室心房的标志基因vmhc和amhc反义RNA探针进行的原位杂交结果显示,vmhc表达抑制,而amhc表达上调.原位免疫荧光显示与原位杂交一致的结果表明:心房扩张心室缩小,并且心脏环化不全.用血管标志基凶flk-1的RNA探针原位杂交和显微荧光造影表明,cx43基因抑制的斑马鱼胚胎血管无明显缺陷.此外,cx43基因抑制的斑马鱼胚胎心脏功能也有明显改变,包括心脏搏动无力,有血液回流现象.抑制cx43的表达可能通过影响两个细胞群的迁移导致斑马鱼胚胎心脏的发育缺陷,从而影响了心脏的功能,但是未发现胚胎血管系统发育的明显缺陷.     

斑马鱼窖蛋白-1基因cDNA克隆及功能初步研究

窖蛋白-1(Cav-1)是胞膜窖的主要结构蛋白, 可与多种信号分子相互作用, 调节细胞的增殖、分化和凋亡, 其异常表达与多种人体疾病的发生和发展密切相关, 而在斑马鱼发育中的功能尚不很清楚。研究克隆出斑马鱼窖蛋白-1基因两个亚型的全长cDNA, 与其他物种窖蛋白-1的氨基酸序列进行比较, 发现该蛋白在脊椎动物中非常保守。利用逆转录多聚酶链反应检测发现, 在斑马鱼多个成年组织中窖蛋白-1的两个亚型均有转录表达。利用胚胎整体原位杂交检测组织或器官特异基因的时空表达变化发现, 过表达或利用Morpholino反义寡聚核苷酸(MO)抑制cav-1α的表达可影响脊索和体节的发育, 而过表达或MO抑制cav-1β可导致肝脏发育的异常;此外, 过表达或MO抑制cav-1α或-1β均可影响斑马鱼神经系统的发育。因此, 斑马鱼Cav-1在维持组织器官的生理功能和调控胚胎的正常发育中起着重要作用。       

神经钙粘着蛋白在P19神经元分化中的作用

利用ＲＴ－ＰＣＲ技术,我们检测Ｐ１９细胞体外神经元分化过程中神经钙粘着蛋白（Ｎ－ｃａｄｈｅｒｉｎ）的表达模式。结果显示,该基因在上述过程中存在上调和下调过程,与体内中枢神经系统发育过程的表达模式十分相近。在此基础上,我们将神经钙粘着蛋白基因ｃＤＮＡ全长转入Ｐ１９细胞,通过药物筛选,得到稳定表达钙粘着蛋白的细胞株。     

C型利钠肽基因调控斑马鱼胚胎血管发育

本研究旨在探索C型利钠肽前体蛋白基因(natriuretic peptide precursor C,nppc)在斑马鱼胚胎期的表达及其在血管发育过程中的功能。利用胚胎整体原位杂交技术检测nppc基因在斑马鱼胚胎期的表达。同时使用转基因斑马鱼系Tg(flk1:GFP)和Tg(fli1a:n GFP),显微注射nppc特异性吗啉基反义寡核苷酸(morpholino)和nppc m RNA调控nppc基因表达,利用激光共聚焦显微镜观察分析斑马鱼节间血管(intersegment vessel,ISV)表型,并统计内皮细胞数目。结果显示,在受精后24 h和48 h,nppc基因在斑马鱼脑、心脏、血管系统中都有表达。下调nppc基因表达导致ISV发育缺陷,ISV内皮细胞数目减少。以上结果表明下调nppc基因表达可能通过抑制内皮细胞增殖和内皮细胞迁移调控斑马鱼胚胎血管发育。     

稳定转染NOR1抑制5-8F细胞片状伪足形成和Wnt信号通路

细胞骨架是真核细胞中的蛋白纤维网络结构,不仅与保持细胞形态结构有关,而且影响细胞黏附和细胞运动．NOR1是从鼻咽癌中克隆得到的新基因,在鼻咽癌组织和细胞系中表达下调．本研究建立了NOR1稳定表达的鼻咽癌5-8F细胞系．过表达NOR1引起高转移性鼻咽癌5-8F细胞形态改变,抑制片状伪足形成、细胞表面积缩小、细胞聚集性增强．扫描电镜检测发现,NOR1抑制了5-8F细胞膜微绒毛的数量,引起细胞膜表面改变．细胞骨架染色发现,NOR1过表达导致5-8F细胞actin骨架连续性破坏,应力纤维增加．Realtime RT-PCR检测发现,NOR1引起5-8F细胞Wnt/β-catenin信号通路分子Wnt5A受体FZD5、FZD7表达下调,抑制了β-catenin蛋白入核．提示NOR1抑制Wnt/β-catenin信号通路激活,破坏细胞骨架连续性,抑制细胞膜微绒毛与伪足形成．     

microRNA-10a/b通过抑制Mib1调节斑马鱼神经元的发育

该文研究了microRNA-10(miR-10)家族miR-10a/b在斑马鱼胚胎发育时期神经管的表达及其对神经元发育的影响。通过斑马鱼胚胎整体原位杂交及Taq Man PCR技术分析研究miR-10a/b在斑马鱼胚胎期神经管的表达情况。利用吗啡啉(morpholino,Mo)修饰的反义寡核苷酸敲低技术建立miR-10a/b下调的斑马鱼模型,研究miR-10a/b下调后神经元发育异常的表型,并分析鉴定miR-10调控神经元发育的下游靶点。结果发现,受精后24 h(24 hours post fertilization,24 hpf)和48 hpf,miR-10a和miR-10b在斑马鱼神经管中高表达;miR-10a/b-Mo下调miR-10a/b的表达后,背神经管中神经元数量明显变少;下调Mib1(mindbomb E3 ubiquitin protein ligase 1)能挽救miR-10下调引起的神经元表型异常;miR-10a/b下调后胚胎神经管中Mib1表达显著上调。上述结果表明,miR-10a/b通过抑制Mib1的表达来影响斑马鱼神经元的发育。     

LRP16通过调控E-钙粘合素的表达促进MCF-7细胞的侵袭生长

LRP16在原代乳腺癌组织中表达水平与雌激素受体α（ERα）表达状态以及腋窝淋巴结侵袭数目密切相关.为研究LRP16基因对乳腺癌MCF-7细胞侵袭生长的影响,并探讨涉及的分子机制,采用基质胶黏附实验与Transwell方法,检测内源性LRP16表达抑制MCF-7细胞的体外黏附、侵袭生长与迁移特征.结果表明,抑制LRP16在MCF-7细胞中的表达,降低了细胞的体外黏附、侵袭与迁移能力;采用FVB小鼠进行的实验性转移试验结果显示,抑制LRP16显著降低了MCF-7细胞的肺转移结节数目;为探索可能的分子机制,采用Western印迹方法,检测了LRP16对乳腺癌转移相关分子MMP-2, MMP-9, CD44和E-钙黏着蛋白表达的影响,结果在LRP16抑制的MCF-7细胞中只有E-钙黏着蛋白蛋白表达上调.进一步的Northern印迹与免疫组化实验结果表明,抑制LRP16可上调MCF-7细胞中E 钙黏着蛋白基因的mRNA与蛋白表达水平;共转染与双荧光素酶方法检测LRP16对E-钙黏着蛋白基因启动子的表达调控效应,结果显示,LRP16抑制E 钙黏着蛋白基因基因5′-近端启动子的转录激活,该抑制效应选择性存在于内源性ERα阳性细胞,并且依赖于雌激素的存在;染色质免疫共沉淀方法（ChIP）检测ERα与E-钙黏着蛋白基因启动子的相互作用,结果显示,在LRP16基因表达缺陷的MCF-7细胞中,ERα抗体沉淀到E-钙黏着蛋白基因启动子的DNA序列;上述研究结果表明,抑制LRP16基因表达,削弱了激素依赖型乳腺癌细胞的侵袭生长能力,其分子机制涉及了LRP16通过ERα介导对E-钙黏着蛋白基因基因转录激活的调控.     

Smad2/3a对斑马鱼神经嵴细胞标记基因crestin表达的影响

目的 探讨Smad2/3a对脊椎动物神经嵴细胞发育的影响。方法 通过在斑马鱼胚胎单细胞时期显微注射smad2/3吗啉环修饰的反义寡核苷酸的方法,特异性敲降smad2/3基因的表达,至胚胎发育至6体节,利用整胚原位杂交检测神经嵴细胞特异性标记基因snail1b,sox10,foxd3和crestin的表达情况;通过casmad2 mRNA和smad3a mRNA显微注射的方法过表达smad2和smad3a,同样利用整胚原位杂交检测神经嵴细胞特异性标记基因crestin的表达情况;通过过表达casmad2及smad3a对下调smad2和smad3a的胚胎进行挽救。结果 smad2/3a被敲低后,crestin的表达量显著降低,而snail1b,sox10和foxd3的表达量无明显变化。smad3b被敲低后,crestin,snail1b,sox10和foxd3的表达量均无明显变化;过表达casmad2和smad3a均可导致crestin的表达量增高;过表达casmad2和smad3a可挽救由于smad2/3a敲降所造成crestin的低表达量。结论 Smad2和Smad3a对神经嵴细胞标记基因crestin的表达具有重要作用。     

Expression of protocadherin 18 in the CNS and pharyngeal arches of zebrafish embryos

Here, we report the results of molecular cloning and expression analyses of a non-clustered protocadherin (pcdh), pcdh18 in zebrafish embryos. The predicted zebrafish pcdh18 protein shows 6566% identity and 7879% homology with its mammalian and Xenopus counterparts. It has a Disabled-1 binding motif in its cytoplasmic domain, which is characteristic of pcdh18. Zebrafish embryos expressed pcdh18 by the early gastrula stage, 6 h post-fertilization (hpf), in their animal cap but not in the germ ring or the shield. pcdh18 was expressed in the neural tube and the central nervous system (CNS) from 12 hpf. Some populations of cells in the lateral neural tube and spinal cord of 1218 hpf embryos expressed pcdh18, but expression in these cells disappeared by 24 hpf. The hindbrain of embryos at 2456 hpf expressed pcdh18 in cells closely adjacent to the rostral and caudal rhombomeric boundaries in a thread-like pattern running in the dorsoventral direction. The pcdh18-positive cells were localized in the ventral part of the hindbrain at 24 hpf and in the dorsal part from 36 hpf. pcdh18 was also expressed in the telencephalon, diencephalon, tectum, upper rhombic lip, retina and otic vesicle. Expression in the CNS decreased markedly before hatching. Pharyngeal arch primordia, arches, jaws and gills expressed pcdh18, and the molecule was also expressed in some endodermal cells in late embryos.     

bHLH transcription factor Her5 links patterning to regional inhibition of neurogenesis at the midbrain-hindbrain boundary

The midbrain-hindbrain (MH) domain of the vertebrate embryonic neural plate displays a stereotypical profile of neuronal differentiation, organized around a neuron-free zone ('intervening zone', IZ) at the midbrain-hindbrain boundary (MHB). The mechanisms establishing this early pattern of neurogenesis are unknown. We demonstrate that the MHB is globally refractory to neurogenesis, and that forced neurogenesis in this area interferes with the continued expression of genes defining MHB identity. We further show that expression of the zebrafish bHLH Hairy/E(spl)-related factor Her5 prefigures and then precisely delineates the IZ throughout embryonic development. Using morpholino knock-down and conditional gain-of-function assays, we demonstrate that Her5 is essential to prevent neuronal differentiation and promote cell proliferation in a medial compartment of the IZ. We identify one probable target of this activity, the zebrafish Cdk inhibitor p27Xic1. Finally, although the her5 expression domain is determined by anteroposterior patterning cues, we show Her5 does not retroactively influence MH patterning. Together, our results highlight the existence of a mechanism that actively inhibits neurogenesis at the MHB, a process that shapes MH neurogenesis into a pattern of separate neuronal clusters and might ultimately be necessary to maintain MHB integrity. Her5 appears as a partially redundant component of this inhibitory process that helps translate early axial patterning information into a distinct spatiotemporal pattern of neurogenesis and cell proliferation within the MH domain.     

Protocadherin-18a has a role in cell adhesion, behavior and migration in zebrafish development

Protocadherin-18a (Pcdh18a) belongs to the δ2-protocadherins, which constitute the largest subgroup within the cadherin superfamily. Here we present isolation of a full-length zebrafish cDNA that encodes a protein highly similar to human and mouse Pcdh18. Zebrafish pcdh18a is expressed in a complex and dynamic pattern in the nervous system from gastrula stages onward, with lesser expression in mesodermal derivatives. Pcdh18a-eGFP fusion protein is expressed in a punctate manner on the membranes between cells. Overexpression of pcdh18a in embryos caused cyclopia, mislocalization of hatching gland tissue, and duplication or splitting of the neural tube. Most neural markers tested were expressed in an approximately correct A-P pattern. By cell transplantation we showed that overexpression of pcdh18a causes diminished cell migration and reduced cell protrusions, resulting in a tendency of cells to stay more firmly aggregated, probably due to increased cell adhesion. In contrast, knockdown of pcdh18a by a morpholino oligonucleotide caused defects in epiboly, and led to reduced cell adhesion as shown by cell dissociation, sorting and transplantation experiments. These results suggest a role for Pcdh18a in cell adhesion, migration and behavior but not cell specification during gastrula and segmentation stages of development.     

Cloning and characterization of zebrafish protocadherin–17

Protocadherins constitute the largest subgroup within the cadherin superfamily of cell surface molecules. In this study, we report the molecular cloning and expression analysis of the non-clustered protocadherin-17 (pcdh17) in the embryonic zebrafish nervous system. The zebrafish Pcdh17 protein is highly conserved, exhibiting 73% sequence homology with the human protein. The zebrafish pcdh17 gene consists of four exons spread over 150 kb, and this organization is highly conserved throughout vertebrates. Pcdh17 message is first detectable by 6 h postfertilization in the developing embryo, and the expression is maintained throughout development. Zebrafish embryos express pcdh17 in all of the major subdivisions of the central nervous system, including the telencephalon, diencephalon, mesencephalon, and rhombencephalon. Analysis of the genomic sequence upstream of pcdh17 in several species reveals a pattern of paired CpG islands. While the CpG islands in zebrafish are further upstream than in other teleosts, alignment of the identified sequences reveals a high degree of conservation, suggesting that the sequences may be important for the regulation of pcdh17 expression.     

Molecular cloning and characterization of the expression pattern of the zebrafish <Emphasis Type="Italic">α</Emphasis>2, 8-sialyltransferases (ST8Sia) in the developing nervous system

Sialyltransferases are Golgi type II transmembrane glycoproteins involved in the biosynthesis of sialylated glycolipids and glycoproteins. These sialylated compounds play fundamental roles in the development of a variety of tissues including the nervous system. In this study, we have molecularly cloned from zebrafish sources, the orthologues of the six human α2,8-sialyltransferases (ST8Sia), a family of sialyltransferases implicated in the α2-8-mono-, oligo-, and poly-sialylation of glycoproteins and gangliosides and we have analysed their expression pattern in the embryonic zebrafish nervous system, using in situ hybridization. Our results show that all six ST8Sia exhibit distinct and overlapping patterns of expression in the developing zebrafish central nervous system with spatial and temporal regulation of the expression of these genes, which suggests a role for the α2-8-sialylated compounds in the developing nervous system.     

Suppression of zebrafish VEGF gene by cytomegalovirus promoter-driven short hairpin constructs induces vascular development defects and down regulation NRP1 expression

The usage of RNA interference for gene knockdown in zebrafish through expression of the small interfering RNA mediators from DNA vectors has created a lot of excitement in the research community. In this work, the ability of human cytomegalovirus immediate early promoter (CMV promoter)-driven short hairpin RNA (shRNA) expression vector to induce shRNA against vascular endothelial growth factor (VEGF) gene in zebrafish was tested, and its effects on VEGF-mediated vasculogenesis and angiogenesis were evaluated. Altogether four vectors targeting various locations of VEGF gene were constructed, and pSI-V4 was proven to be the most effective one. Microinjection of pSI-V4 into the zebrafish embryos resulted in defective vascular formation and down regulation of VEGF expression. In situ hybridization analysis indicated that silencing VEGF gene expression by pSI-V4 resulted in down regulation of neuropilin-1 (NRP1), a potent VEGF receptor. Knockdown of VEGF expression by morpholino gave the same result. This provided evidence that the VEGF-mediated angiogenesis in zebrafish was in part dependent on NRP1 expression. The results contributed to a better understanding of molecular mechanisms of cardiovascular development and provided a potential promoter for making inducible knockdown in zebrafish.