Sept6 Is Required for Ciliogenesis in Kupffer's Vesicle,the Pronephros,and the Neural Tube during Early Embryonic Development

Septins are conserved filament-forming GTP-binding proteins that act as cellular scaffolds or diffusion barriers in a number of cellular processes. However, the role of septins in vertebrate development remains relatively obscure. Here, we show that zebrafish septin 6 (sept6) is first expressed in the notochord and then in nearly all of the ciliary organs, including Kupffer''s vesicle (KV), the pronephros, eye, olfactory bulb, and neural tube. Knockdown of sept6 in zebrafish embryos results in reduced numbers and length of cilia in KV. Consequently, cilium-related functions, such as the left-right patterning of internal organs and nodal/spaw signaling, are compromised. Knockdown of sept6 also results in aberrant cilium formation in the pronephros and neural tube, leading to cilium-related defects in pronephros development and Sonic hedgehog (Shh) signaling. We further demonstrate that SEPT6 associates with acetylated α-tubulin in vivo and localizes along the axoneme in the cilia of zebrafish pronephric duct cells as well as cultured ZF4 cells. Our study reveals a novel role of sept6 in ciliogenesis during early embryonic development in zebrafish.     

mED2—A Novel Gene Involved in Mouse Embryonic Development

Dissection of new genes underlying embryonic development is important for our understanding of the molecular mechanism of vertebrate embryonic development. In this study, the expression pattern and functional analysis of a new gene, called mED2, originally cloned from mouse embryos using subtractive hybridization was reported. mED2 expression patterns were characterized by RT-PCR-Southern hybridization and in situ hybridization. The results showed that mED2 was mainly expressed in the embryonic nervous system and mesoderm-derived tissues and its expression varied depending on the embryonic developmental stages. The knockdown of mED2 activity by antisense RNA injection inhibited zygote cleavage and blastocyst formation during pre-implantation in mice. Subcellular localization of mED2-eGFP fusion protein revealed a pattern of nuclear membrane and juxta-/perinuclear location such as in the rough endoplasmic reticulum and Golgi apparatus. This finding was supported by bioinformatics analysis, which indicated mED2 protein to be a transmembrane protein with partial homology to the thioredoxin family of proteins. It is inferred that mED2 gene can probably take part in early embryonic development in mouse and may be involved in target protein posttranslational modification, turnover, folding, and stability at the endoplasmic reticulum and/or the Golgi apparatus.     

Obtaining of Agr2 Specific Antibodies and Determination of the Agr2 Protein Distribution Pattern during Early Embryonic Development and Tadpole Regeneration in Xenopus laevis

Russian Journal of Developmental Biology - The Agr (anterior gradient) group proteins belong to the family of proteins with a noncanonical thioredoxin motif and are involved in the regulation of...     

瓯江彩鲤胚胎发育过程中脂、蛋白及 碳水化合物水平的变化

为了探究鱼类胚胎发育过程中主要营养物质消耗利用的规律,采用生物化学方法测定了瓯江彩鲤(Cyprinus carpio var.color)胚胎发育过程中7个发育期的主要生化成分.结果表明,(1)瓯江彩鲤受精卵期水分含量达70%以上,随着发育的进行,胚胎的含水量呈逐渐上升的趋势;(2)胚胎发育过程中脂质的利用主要集中在胚...     

Tetranectin Is a Novel Marker for Myogenesis during Embryonic Development, Muscle Regeneration, and Muscle Cell Differentiationin Vitro

Tetranectin, a plasminogen-binding protein with a C-type lectin domain, is found in both serum and the extracellular matrix. In the present study we report that tetranectin is closely associated with myogenesis during embryonic development, skeletal muscle regeneration, and muscle cell differentiationin vitro.We find that tetranectin expression coincides with muscle differentiation and maturation in the second half of gestation and further that tetranectin is enriched at the myotendinous and myofascial junctions. The tetranectin immunostaining declines after birth and no immunostaining is observed in normal adult muscle. However, during skeletal muscle regeneration induced by the intramuscular injection of the myotoxic anesthetic Marcaine, myoblasts, myotubes, and the stumps of damaged myofibers exhibit intense tetranectin immunostaining. Tetranectin is also present in regenerating muscle cells in dystrophicmdxmice. Murine C2C12 myogenic cells and pluripotent embryonic stem cells can undergo muscle cell differentiationin vitro.Tetranectin is not expressed in the undifferentiated myogenic cells, but during the progression of muscle differentiation, tetranectin mRNA is induced, and both cytoplasmic and cell surface tetranectin immunostaining become apparent. Finally, we demonstrate that while tetranectin mRNA is translated to a similar degree in developing limbs and lung, the protein does not seem to be tissue associated in the lung as it is in the limbs. This indicates that in some tissues, such as the limbs, tetranectin may function locally, whereas in other tissues, such as the lung, tetranectin production may be destined for body fluids. In summary, these results suggest that tetranectin is a matricellular protein and plays a role in myogenesis.     

A Nonneuronal Isoform of Cell Adhesion Molecule L1: Tissue-Specific Expression and Functional Analysis

Abstract: The cell adhesion molecule L1 is a multifunctional protein in the nervous system characterizing cell adhesion, migration, and neurite outgrowth. In addition to full-length L1, we found an alternatively spliced variant lacking both the KGHHV sequence in the extracellular part and the RSLE sequence in the cytoplasmic part of L1. This L1 variant was expressed exclusively in nonneuronal cells such as Schwann cells, astrocytes, and oligodendrocytes, in contrast to the expression of the full-length L1 in neurons and cells of neuronal origin. To investigate the functions of the L1 variant, we established cell lines transfected with a cytoplasmic short L1 (L1cs) cDNA that lacks only the 12-bp segment encoding for the RSLE sequence. The promoting activities of homophilic cell adhesion, neurite outgrowth, and neuronal cell migration of L1cs-transfected cells (L4-2) were similar to those of full-length L1-transfected cells (L3-1), but the cell migratory activity of L4-2 itself was clearly lower than that of L3-1. In conclusion, the short form of L1 is a nonneuronal type, in contrast to the neuronal type of the full-length L1. Deletion of the four amino acids RSLE in the cytoplasmic region of L1 markedly reduced cell migratory activity, suggesting an importance of the RSLE sequence for the signaling events of neuronal migration mediated by L1.     

Purification,Identification and Functional Analysis of a Novel Immunomodulatory Peptide from Silkworm Pupa Protein

International Journal of Peptide Research and Therapeutics - In this study, we isolated and characterized an immunomodulatory peptide from silkworm (Bombyx mori) pupa protein hydrolysates....     

Variations in Both TG1 and TG2 Isozyme-specific In Situ Activities and Protein Expressions during Mouse Embryonic Development

Transglutaminase (TG) is a family of enzymes that catalyzes cross-linking reactions among proteins. Using fluorescent-labeled highly reactive substrate peptides, we recently developed a system to visualize isozyme-specific in situ enzymatic activity. In the present study, we investigated the in situ activities of TG1 (skin-type) and TG2 (tissue-type) using whole mouse sections of various embryonic developmental stages and neonates. In each case, we also successfully used immunostaining of identical whole mouse sections for protein expression after detection of enzymatic activities. In general, the enzymatic activity was correlated with TG protein expression. However, in some tissues, TG protein expression patterns, which were inconsistent with the enzymatic activities, suggested that inactive TGs were produced possibly by self cross-linking or other modifications. Our method allowed us to simultaneously observe developmental variations in both TG isozyme-specific activities and protein levels in mouse embryonic and neonate tissues.     

蛋白磷酸酶2A的结构、功能和活性调节

蛋白磷酸酶 2A(proteinphosphatase 2A ,PP2A)是主要的丝 /苏氨酸蛋白磷酸酶 ,拥有众多不同基因编码的亚基 ,分别组成多种不同的PP2A全酶 ,参与细胞周期、DNA复制、信号转导、细胞分化和细胞恶性转化等多种细胞生物学事件 ,并和神经退行性疾病、肿瘤等多种疾病的发生、发展有关。PP2A调节亚基的组织特异性表达和细胞内定位 ,催化亚基羧基末端的磷酸化和甲基化 ,第二信使神经酰胺 (ceramide)、天然小分子抑制剂等都能够调节PP2A的活性。     

BRPF1及其新型转录本BRPF2与RHOX5蛋白间的相互作用

RHOX5基因是最早发现的小鼠RHOX基因簇(reproductive homeobox on the X chromosome)成员,可特异性地在生殖系统中表达.RHOX5蛋白在胚胎发育、生殖组织的发育、精子的生成和成熟等多个环节发挥作用,但其功能的发挥途径尚不明确.在前期筛选与RHOX5蛋白相互作用的分子中初步获得一个BRPF1的新型转录本BRPF2.进一步构建pGBKT7-BRPF2质粒,酵母双杂交实验确定其与RHOX5蛋白的相互作用,GST-pull down实验确定其在体外的直接结合;PCR扩增BRPF1基因,构建pGBKT7-BRPF1和pGADT7-BRPF1质粒,酵母双杂交实验和GST-pull down实验证明RHOX5蛋白亦可以直接结合BRPF1蛋白.BRPF1及其新型转录本BRPF2与RHOX5蛋白间的相互作用证实暗示了BRPF2极有可能与BRPF1竞争性结合RHOX5蛋白,为三种蛋白功能的研究提供了新的思路.     

Identification of cyk, a Cyclin B2 Kinase, as a Novel Calcium/Calmodulin-Dependent Protein Kinase II and Its Role during Xenopus laevis Oocyte Maturation

Recently, we have partially purified and characterized a specific cell cycle-regulated cyclin B2 kinase (cyk) from prophase oocytes of Xenopus laevis after an ATP-gamma-S activation step (R. Derua, I. Stevens, E. Waelkens, A. Fernandez, N. Lamb, W. Merlevede, and J. Goris, 1997, Exp. Cell Res. 230, 310-324). In the present paper we describe its purification to homogeneity. We could identify the kinase as a special form of calcium/calmodulin-dependent protein kinase II (CaMKII), consisting of five isoforms with molecular masses ranging from 52 to 83 kDa. At least three of them could be considered as novel. Using an in vivo assay with a synthetic peptide (cyktide), an activation of the kinase was shown at about 50% maturation. Further evidence for this observation came from the injection of the calcium chelator BAPTA and the specific cyk/CaMKII inhibitor AIP. A delay of oocyte maturation of at least 1 h was observed. Besides serine 53, a second cyk phosphorylation site in cyclin B2 was identified as threonine 41. Site-directed mutagenesis of these sites indicated that phosphorylation of these sites in Xenopus cyclin B2 was not required for the hallmark functions of cyclin B2.     

A Model of GAG/MIP-2/CXCR2 Interfaces and Its Functional Effects

MIP-2/CXCL2 is a murine chemokine related to human chemokines that possesses the Glu-Leu-Arg (ELR) activation motif and activates CXCR2 for neutrophil chemotaxis. We determined the structure of MIP-2 to 1.9 ? resolution and created a model with its murine receptor CXCR2 based on the coordinates of human CXCR4. Chemokine-induced migration of cells through specific G-protein coupled receptors is regulated by glycosaminoglycans (GAGs) that oligomerize chemokines. MIP-2 GAG-binding residues were identified that interact with heparin disaccharide I-S by NMR spectroscopy. A model GAG/MIP-2/CXCR2 complex that supports a 2:2 complex between chemokine and receptor was created. Mutants of these disaccharide-binding residues were made and tested for heparin binding, in vitro neutrophil chemotaxis, and in vivo neutrophil recruitment to the mouse peritoneum and lung. The mutants have a 10-fold decrease in neutrophil chemotaxis in vitro. There is no difference in neutrophil recruitment between wild-type MIP-2 and mutants in the peritoneum, but all activity of the mutants is lost in the lung, supporting the concept that GAG regulation of chemokines is tissue-dependent.     

A Global Transcriptome Analysis Reveals Molecular Hallmarks of Neural Stem Cell Death,Survival, and Differentiation in Response to Partial FGF-2 and EGF Deprivation

Neurosphere cell culture is a commonly used model to study the properties and potential applications of neural stem cells (NSCs). However, standard protocols to culture NSCs have yet to be established, and the mechanisms underlying NSC survival and maintenance of their undifferentiated state, in response to the growth factors FGF-2 and EGF are not fully understood. Using cultures of embryonic and adult olfactory bulb stem cells (eOBSCs and aOBSCs), we analyzed the consequences of FGF-2 and EGF addition at different intervals on proliferation, cell cycle progression, cell death and differentiation, as well as on global gene expression. As opposed to cultures supplemented daily, addition of FGF-2 and EGF every 4 days significantly reduced the neurosphere volume and the total number of cells in the spheres, mainly due to increased cell death. Moreover, partial FGF-2 and EGF deprivation produced an increase in OBSC differentiation during the proliferative phase. These changes were more evident in aOBSC than eOBSC cultures. Remarkably, these effects were accompanied by a significant upregulation in the expression of endogenous Fgf-2 and genes involved in cell death and survival (Cryab), lipid catabolic processes (Pla2g7), cell adhesion (Dscaml1), cell differentiation (Dscaml1, Gpr17, S100b, Ndrg2) and signal transduction (Gpr17, Ndrg2). These findings support that a daily supply of FGF-2 and EGF is critical to maintain the viability and the undifferentiated state of NSCs in culture, and they reveal novel molecular hallmarks of NSC death, survival and the initiation of differentiation.     

A Vacuolar Processing Enzyme in Maturing and Germinating Seeds: Its Distribution and Associated Changes during Development

Proprotein precursors of vacuolar components are transportedfrom endoplasmic reticulum to the dense vesicles, and then targetedto the vacuoles, where they are processed proteolytically totheir mature forms by a vacuolar processing enzyme. Immunoelectronmicroscopy of the maturing endosperm of castor bean (Ricinnscommunis) revealed that the vacuolar processing enzyme is selectivelylocalized in the dense vesicles as well as in the vacuolar matrix.This indicates that the vacuolar processing enzyme is transportedto vacuoles via dense vesicles as does IIS globulin, a majorseed protein. During seed maturation of castor bean, an increasein the activity of the vacuolar processing enzyme in the endospermpreceded increases in amounts of total protein. The enzymaticactivity reached a maximum at the late stage of seed maturationand then decreased during seed germination concomitantly withthe degradation of seed storage proteins. We examined the distributionof the enzyme in different tissues of various plants. The processingenzyme was found in cotyledons of castor bean, pumpkin and soybean,as well as in endosperm, and low-level processing activity wasalso detected in roots, hypocotyls and leaves of castor bean,pumpkin, soybean, mung bean and spinach. These results suggestthat the proprotein-processing machinery is widely distributedin vacuoles of various plant tissues. (Received July 11, 1993; Accepted August 17, 1993)     

Motor Units: Physiological/Histochemical Profiles, Neural Connectivity and Functional Specializations

This brief review considers muscles as ensembles of motor units,the viewpoint usually taken by motor systems physiologists.The morphological, histochemical and mechanical properties ofmuscle units are discussed in relation to the intrinsic propertiesof the motoneurons that innervate them, and in connection withthe organization of synaptic inputs that play a significantrole in determining functional usage. These factors, from synapticorganization to muscle fiber physiology and biochemistry, areall precisely interrelated. The overall design of the soleus(SOL) and medial gastrocnemius (MG) motor unit populations inthe cat hindlimb seems ideally suited to the functional rolesplayed by these contrasting muscles. As more information accumulatesabout these populations, and about others with different functionalroles, we should have increasingly clear ideas about the fundamentalquestion of why different muscles look and act as they do invarious animal species.