UMLS:C0038379 - FACTA Search

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Query: UMLS:C0038379 (strabismus)
9,317 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In vertebrates, specification of the dorso-ventral axis requires Wnt signaling, which leads to formation of the Nieuwkoop center and the Spemann organizer (dorsal organizer), through the nuclear accumulation of beta-catenin. Zebrafish bozozok/dharma (boz) and squint (sqt), which encode a homeodomain protein and a Nodal-related protein, respectively, are required for the formation of the dorsal organizer. The zygotic expression of boz and sqt in the dorsal blastoderm and dorsal yolk syncytial layer (YSL) was dependent on the maternally derived Wnt signal, and their expression at the late blastula and early gastrula stages was dependent on the zygotic expression of their own genes. The dorsal organizer genes, goosecoid (gsc) and chordin (din), were ectopically expressed in wild-type embryos injected with boz or sqt RNA. The expression of gsc strictly depended on both boz and sqt while the expression of din strongly depended on boz but only partially depended on sqt and cyclops (cyc, another nodal-related gene). Overexpression of boz in embryos defective in Nodal signaling elicited the ectopic expression of din but not gsc and resulted in dorsalization, implying that boz could induce part of the organizer, independent of the Nodal proteins. Furthermore, boz; sqt and boz;cyc double mutants displayed a severely ventralized phenotype with anterior truncation, compared with the single mutants, and boz;sqt;cyc triple mutant embryos exhibited an even more severe phenotype, lacking the anterior neuroectoderm and notochord, suggesting that Boz/Dharma and the Nodal-related proteins cooperatively regulate the formation of the dorsal organizer.
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PMID:Cooperative roles of Bozozok/Dharma and Nodal-related proteins in the formation of the dorsal organizer in zebrafish. 1070 53

The zebrafish bozozok (boz) gene encoding a homeodomain protein (also named Dharma/Nieuwkoid) is required during blastula stages for the formation of a complete Spemann-Mangold gastrula organizer and subsequent development of axial mesoderm and anterior neural structures. Expression of bozin the dorsal yolk syncytial layer (YSL) and overlying marginal blastomeres is activated by beta-catenin. Bozozok itself acts as a transcriptional repressor, and promotes organizer formation by directly inhibiting expression of the bmp2b (swirl) gene and by negatively regulating Wnt signaling by an unknown mechanism. boz cooperates with the Nodal-related secreted factors, Cyclops and Squint, in organizer formation. The incomplete organizer in boz mutants is deficient in expression of a number of factors such as Chordin that antagonize Bone morphogenetic proteins (Bmps), and Dickkopf 1, a Wnt antagonist. Conversely, the dorsal blastoderm of boz mutants exhibits ectopic expression of genes normally excluded from the dorsal midline such as wnt8 or tbx6. boz specifies the formation of anterior neuroectoderm by regulating Bmp and Wnt pathways in a fashion consistent with Nieuwkoop's two-step neural patterning model. boz promotes neural induction by limiting the anti-neuralizing activity of Bmp morphogens. In addition, by negative regulation of Wnt signaling, boz limits posteriorization of neuroectoderm. bozozok chordino double mutants exhibit a synergistic loss of head and trunk. This synthetic phenotype is due to dramatically increased Bmp signaling and consequent massive accumulation of cells in the tailbud at the expense of dorso-anterior structures. Therefore, boz and din act in overlapping pathways that provide the main mechanism to limit Bmp signaling in the zebrafish gastrula and allow for head and trunk development. Notably, Bozozok appears to function by repressing transcription of target genes such as swr (bmp2b) gene, and as such is the earliest acting repressor that the nascent dorsal axis is using to antagonize ventral influences.
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PMID:The role of the homeodomain protein Bozozok in zebrafish axis formation. 1129 60

The gene strabismus (stbm)/Van Gogh (Vang) functions in the planar cell-polarity pathway in Drosophila. As the existence of such a pathway in vertebrates has not been firmly established, we investigated the functions and signalling activities encoded by stbm in vertebrate embryos. In regard to cell fate, inhibition of Stbm function in zebrafish embryos leads to reduction of anterior neural markers, whereas gain of function leads to a rise in the levels of these markers. In regard to cell behaviour, both gain-of-function and loss-of-function assays reveal a role for Stbm in mediating cell movements during gastrulation. Mechanistically, Stbm inhibits Wnt-mediated activation of beta-catenin-dependent transcription while promoting phosphorylation of c-Jun- and AP-1-dependent transcription. This complex effect on intracellular signalling pathways probably involves dishevelled (dsh), as Stbm was found to interact with the Dsh protein, and as Dsh is known to function in both planar cell-polarity and beta-catenin pathways in Drosophila.
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PMID:The planar cell-polarity gene stbm regulates cell behaviour and cell fate in vertebrate embryos. 1178 Jan 32

The signaling mechanisms that specify, guide and coordinate cell behavior during embryonic morphogenesis are poorly understood. We report that a Xenopus homolog of the Drosophila planar cell polarity gene strabismus (stbm) participates in the regulation of convergent extension, a critical morphogenetic process required for the elongation of dorsal structures in vertebrate embryos. Overexpression of Xstbm, which is expressed broadly in early development and subsequently in the nervous system, causes severely shortened trunk structures; a similar phenotype results from inhibiting Xstbm translation using a morpholino antisense oligo. Experiments with Keller explants further demonstrate that Xstbm can regulate convergent extension in both dorsal mesoderm and neural tissue. The specification of dorsal tissues is not affected. The Xstbm phenotype resembles those obtained with several other molecules with roles in planar polarity signaling, including Dishevelled and Frizzled-7 and -8. Unlike these proteins, however, Stbm has little effect on conventional Wnt/beta-catenin signaling in either frog or fly assays. Thus our results strongly support the emerging hypothesis that a vertebrate analog of the planar polarity pathway governs convergent extension movements.
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PMID:The planar polarity gene strabismus regulates convergent extension movements in Xenopus. 1186 25

WNT signaling pathway is implicated in carcinogenesis and embryogenesis. WNT signal is transduced to the beta-catenin - TCF pathway, the JNK pathway, or the Ca2+-releasing pathway through seven-transmembrane-type WNT receptors encoded by Frizzled (FZD) genes. Xenopus Strabismus (Stbm) is a tetra-spanning transmembrane protein interacting with Dishevelled, and is a negative regulator of the WNT - beta-catenin - TCF signaling pathway. STB1/KIAA1215/VANGL2 is a human orthologue of Xenopus Stbm (90.6% total-amino-acid identity). Here, STB2/VANGL1 gene fragments were identified in human genome draft sequences by using bioinformatics, and STB2 cDNAs were isolated by using cDNA-PCR. STB2 gene consisted of at lest 7 exons, and encoded a 524-amino-acid protein with 4 transmembrane domains and the C-terminal Ser/Thr-X-Val motif. Human STB2 was homologous to human STB1 (73.1% total-amino-acid identity) and Xenopus Stbm (72.7% total-amino-acid identity). STB2 gene was clustered with Calsequestrin 2 (CASQ2) gene in tail-to-tail manner (interval less than 5.0 kb), and CASQ2 gene is mapped to human chromosome 1p11-p13.3 or linked to human chromosome 1p13-p21. STB2 mRNAs of 4.8- and 6.8-kb in size were expressed almost ubiquitously in various normal tissues. STB2 mRNA was significantly up-regulated in gastric cancer cell lines MKN28, MKN74, pancreatic cancer cell lines BxPC-3, PSN-1 and Hs766T. On the other hand, STB2 mRNA was significantly down-regulated in a pancreatic cancer cell line AsPC-1. This is the first report on molecular cloning and characterization of STB2.
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PMID:Molecular cloning and characterization of Strabismus 2 (STB2). 1195 95

WNT signals are transduced to beta-catenin - TCF pathway, JNK pathway, or Ca2+-releasing pathway through WNT receptors. FRAT1, FRAT2, and PAR-1 are positive regulators of WNT - beta-catenin pathway. APC, AXIN, NKD1, NKD2, and Strabismus (STB1, STB2) are negative regulators of WNT - beta-catenin pathway. Here, biological significance of WNT3-WNT14B/WNT15 gene cluster (human chromosome 17q21) and WNT3A-WNT14 gene cluster (human chromosome 1q42) will be reviewed. Total-amino-acid identity between WNT3 and WNT3A is 84.2%, and that between WNT14 and WNT14B is 61.4%. WNT3A and WNT14B show reciprocal regulation by all-trans retinoic acid in NT2 cells and by beta-estradiol in MCF-7 cells. Exon-intron structures are well conserved between WNT3-WNT14B gene cluster and WNT3A-WNT14 gene cluster, except for the existence of an additional intron in 3'-UTR of WNT3. Capicua pseudogene and AK024248-related sequence are located within intergenic region of human WNT3A-WNT14 gene cluster, but not within intergenic regions of human WNT3-WNT14B gene cluster and mouse Wnt3a-Wnt14 gene cluster. Integration of mouse mammary tumor virus (MMTV) into mouse Wnt3-Wnt14b gene cluster leads to carcinogenesis. Because these WNT gene clusters might be fragile sites in the human genome, implication of WNT3 or WNT3A in cancer as well as implication of WNT14 or WNT14B in connective tissue disease and congenital joint malformation should be elucidated in the future. WNT3, WNT3A, WNT14, and WNT14B might be applicable to tissue engineering of neuron and joint in the field of regenerative medicine, and as an early diagnostic marker in the field of clinical oncology.
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PMID:WNT3-WNT14B and WNT3A-WNT14 gene clusters (Review). 1201 73

Xenopus Strabismus (Stbm) is a negative regulator of the WNT - beta-catenin signaling pathway. Strabismus 1 (STB1/VangL2) and Strabismus 2 (STB2/Vangl1) are human homologues of Xenopus Stbm and Drosophila Stbm/ Van Gogh (Vang) STB1 and STB2 are four-transmembrane-type proteins with Dishevelled-binding motif. STB2 and CASQ2 genes are located on human chromosome 1p13.3-p11 with an interval less than 5 kb. Here, STB1 gene and CASQ1 gene were found to be located on human chromosome 1q21-q23 with an interval of about 210 kb including Nicastrin, COPA, PXF, H326 and PEA15 genes. Exon-intron structure was well conserved between STB1 and STB2 genes. STB1-CASQ1 gene cluster and STB2-CASQ2 gene cluster might be generated due to duplication of ancestral gene cluster, and several genes might be inserted into the STB1-CASQ1 intergenic region during or after gene-cluster duplication. STB1 mRNA was relatively highly expressed in prostate, trachea, thymus, lymph node, placenta, fetal kidney, fetal brain, and fetal lung. In adult brain, STB1 mRNA was more highly expressed in cerebellum, corpus callosum, amygdala, and medulla oblongata. STB1 mRNA was moderately expressed in K-562 (chronic myelogenous leukemia), G-361 (melanoma), and MKN7 (gastric cancer). On the other hand, STB1 mRNA was almost undetectable in several human cancer cell lines, and was down-regulated in 4 out of 14 cases of primary kidney tumors, and in 2 out of 3 cases of primary lung cancer. Loss-of-function mutation of STB1 gene might lead to carcinogenesis through activation of the WNT - beta-catenin signaling pathway.
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PMID:Structure and expression of Strabismus 1 gene on human chromosome 1q21-q23. 1201 99

Strabismus 1 (STB1/VANGL2) and Strabismus 2 (STB2/VANGL1), which have been cloned and characterized using bioinformatics and cDNA-PCR, are human homologues of Drosophila tissue polarity gene strabismus (stbm)/Van Gogh (Vang). STB1 and STB2 are tetra-membrane-spanning proteins with 73.1% total-amino-acid identity. Serine-rich domain and Strabismus-homology (STH1 and STH2) domains are conserved among human STB1, STB2, Xenopus Stbm, and Drosophila Stbm. STH2 domain with the C-terminal Ser/Thr-X-Val motif is implicated in binding with Dishevelled (DVL) proteins. STB1 gene is clustered with CASQ1 gene on human chromosome 1q21-q23, while STB2 gene is clustered with CASQ2 gene on human chromosome 1p13. STB1 and STB2 genes are located around cancer susceptibility loci or recombination hot spots in the human genome. STB1 is moderately expressed in K-562 (leukemia), G-361 (melanoma), and MKN7 (gastric cancer) cells. STB2 is highly expressed in MKN28, MKN74 (gastric cancer), BxPC-3, PSN-1, and Hs766T (pancreatic cancer) cells. On the other hand, STB1 and STB2 are significantly down-regulated in several cancer cell lines and primary tumors. Xenopus homologue of human STB1 and STB2 regulates negatively the WNT - beta-catenin signaling pathway. Loss-of-function mutations of genes encoding negative regulators of WNT - beta-catenin signaling pathway lead to carcinogenesis. Based on functional aspects and human chromosomal loci, STB1 gene and STB2 gene are predicted to be potent tumor suppressor gene candidates. STB1 and STB2 might be suitable targets for tissue engineering in the field of re-generative medicine and for chemoprevention and treatment in the field of clinical oncology.
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PMID:Strabismus (STB)/Vang-like (VANGL) gene family (Review). 1206 Aug 45

Embryonic morphogenesis is driven by a suite of cell behaviours, including coordinated shape changes, cellular rearrangements and individual cell migrations, whose molecular determinants are largely unknown. In the zebrafish, Dani rerio, trilobite mutant embryos have defects in gastrulation movements and posterior migration of hindbrain neurons. Here, we have used positional cloning to demonstrate that trilobite mutations disrupt the transmembrane protein Strabismus (Stbm)/Van Gogh (Vang), previously associated with planar cell polarity (PCP) in Drosophila melanogaster, and PCP and canonical Wnt/beta-catenin signalling in vertebrates. Our genetic and molecular analyses argue that during gastrulation, trilobite interacts with the PCP pathway without affecting canonical Wnt signalling. Furthermore, trilobite may regulate neuronal migration independently of PCP molecules. We show that trilobite mediates polarization of distinct movement behaviours. During gastrulation convergence and extension movements, trilobite regulates mediolateral cell polarity underlying effective intercalation and directed dorsal migration at increasing velocities. In the hindbrain, trilobite controls effective migration of branchiomotor neurons towards posterior rhombomeres. Mosaic analyses show trilobite functions cell-autonomously and non-autonomously in gastrulae and the hindbrain. We propose Trilobite/Stbm mediates cellular interactions that confer directionality on distinct movements during vertebrate embryogenesis.
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PMID:Zebrafish trilobite identifies new roles for Strabismus in gastrulation and neuronal movements. 1210 18

B1-type SOXs (SOXs 1, 2, and 3) are the most evolutionarily conserved subgroup of the SOX transcription factor family. To study their maternal functions, we used the affinity-purified antibody antiSOX3c, which inhibits the binding of Xenopus SOX3 to target DNA sequences [Development. 130(2003)5609]. The antibody also cross-reacts with zebrafish embryos. When injected into fertilized Xenopus or zebrafish eggs, antiSOX3c caused a profound gastrulation defect; this defect could be rescued by the injection of RNA encoding SOX3DeltaC-EnR, a SOX3-engrailed repression domain chimera. In antiSOX3c-injected Xenopus embryos, normal animal-vegetal patterning of mesodermal and endodermal markers was disrupted, expression domains were shifted toward the animal pole, and the levels of the endodermal markers SOX17 and endodermin increased. In Xenopus, SOX3 acts as a negative regulator of Xnr5, which encodes a nodal-related TGFbeta-family protein. Two nodal-related proteins are expressed in the early zebrafish embryo, squint and cyclops; antiSOX3c-injection leads to an increase in the level of cyclops expression. In both Xenopus and zebrafish, the antiSOX3c phenotype was rescued by the injection of RNA encoding the nodal inhibitor Cerberus-short (CerS). In Xenopus, antiSOX3c's effects on endodermin expression were suppressed by injection of RNA encoding a dominant negative version of Mixer or a morpholino against SOX17alpha2, both of which act downstream of nodal signaling in the endoderm specification pathway. Based on these data, it appears that maternal B1-type SOX functions together with the VegT/beta-catenin system to regulate nodal expression and to establish the normal pattern of germ layer formation in Xenopus. A mechanistically conserved system appears to act in a similar manner in the zebrafish.
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PMID:Repression of nodal expression by maternal B1-type SOXs regulates germ layer formation in Xenopus and zebrafish. 1530 95

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