EC:3.4.16.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.4.16.2 (PCP)
3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

WNT signals play key roles in carcinogenesis and embryogenesis through the specification of cell fate and polarity. Dishevelled (DVL) proteins are WNT signaling molecules implicated in beta-catenin pathway and PCP pathway. Xenopus Dapper and Frodo are Dvl-binding proteins, showing 89.8% total-amino-acid identity. Here, we identified and characterized human homologs of Xenopus Dapper and Frodo using bioinformatics. Human DAPPER1 gene was located within human genome draft sequence NT_025892.9 (nucleotide position 39378960-39387891 in the forward orientation), and human DAPPER2 gene within NT_007302.10 (nucleotide position 660279-672480 in the reverse orientation). DAPPER1 (799-amino-acids) and DAPPER2 (774-amino-acids) showed 28.8% total-amino-acid identity. Seven DAPPER homologous (DAPH) domains, including DAPH2 (leucine zipper), DAPH3 (serine rich) and DAPH7 (PDZ binding), were conserved between DAPPER1 and DAPPER2. Phylogenetic analysis of vertebrate Dapper proteins revealed that Xenopus Dapper and Frodo are orthologs of human DAPPER1. DAPPER1 mRNA was expressed in amnion, fetal brain, eye, heart, adult brain medulla, gastric cancer (signet ring cell features), RER+ colon tumor, acute lymphoblastic leukemia, germ cell tumor, chondrosarcoma, and parathyroid tumor. DAPPER2 mRNA was expressed in placenta, genitourinary tract tumor, and endometrial adenocarcinoma. DAPPER1 and DAPPER2 genes were mapped to human chromosome 14q22.3 and 6q27, respectively. Human chromosome 14q22.3 is deleted in astrocytoma, while human chromosome 6q27 is deleted in breast, ovarian, and gastric cancer. Based on evolutionary and functional conservation of WNT signaling molecules as well as human chromosomal localization, DAPPER1 and DAPPER2 genes are predicted to be potent cancer-associated genes.
...
PMID:Identification and characterization of human DAPPER1 and DAPPER2 genes in silico. 1263 86

WNT signals play key roles in carcinogenesis and embryogenesis through the specification of cell fate and polarity. Dishevelled proteins are implicated in the WNT - beta-catenin pathway and the WNT-PCP pathway. DAAM1/KIAA0666 is a Dishevelled-binding protein transducing WNT signals to the PCP pathway. Here, we identified and characterized DAAM2 gene by using bioinformatics. Uncharacterized FLJ34430 and KIAA0381 cDNAs were homologous to DAAM1. FLJ34430 was recombined with URB (XM_087331) in the 3'-region, and KIAA0381 was truncated in the 5'-region. Nucleotide sequence of DAAM2 cDNA was determined in silico by adding nucleotide position 1-793 of FLJ34430 onto the 5'-end of KIAA0381. DAAM2 gene consists of 27 exons, and gives rise to four splicing variants due to alternative splicing of alternative promoter type as well as of cassette exon type. DAAM2 gene was linked to the MOCS1 gene on human chromosome 6p21.3 with an interval less than 1 kb. DAAM2 mRNA was expressed in fetal heart, adult hypothalamus, eye, spinal cord, lung, prostate, kidney, and also in glioblastoma, oligodendroglioma, melanoma, mammary adenocarcinoma and chondrosarcoma. DAAM2 was a 1077-amino-acid protein with Formin-homology FH1 and FH2 domains, which showed 68.9% total-amino-acid identity with DAAM1. Among Formin-homology proteins, FDD (Formin-like, Diaphanous, Daam) domain was conserved in FMNL1/FMNL/KW-13, FMNL2/KIAA1902/FHOD2, DIAPH1, DIAPH2, DAAM1 and DAAM2, but not in Fmn1, Fmn2, FHOD1 and Grid2ip. Therefore, it was concluded that FMNL1, FMNL2, DIAPH1, DIAPH2, DAAM1 and DAAM2 proteins constitute the Formin-homology FDD subfamily.
...
PMID:Identification and characterization of human DAAM2 gene in silico. 1263 87

Coordinated morphogenetic cell movements during gastrulation are crucial for establishing embryonic axes in animals. Most recently, the non-canonical Wnt signaling cascade (PCP pathway) has been shown to regulate convergent extension movements in Xenopus and zebrafish. Heparan sulfate proteoglycans (HSPGs) are known as modulators of intercellular signaling, and are required for gastrulation movements in vertebrates. However, the function of HSPGs is poorly understood. We analyze the function of Xenopus glypican 4 (Xgly4), which is a member of membrane-associated HSPG family. In situ hybridization revealed that Xgly4 is expressed in the dorsal mesoderm and ectoderm during gastrulation. Reducing the levels of Xgly4 inhibits cell-membrane accumulation of Dishevelled (Dsh), which is a transducer of the Wnt signaling cascade, and thereby disturbs cell movements during gastrulation. Rescue analysis with different Dsh mutants and Wnt11 demonstrated that Xgly4 functions in the non-canonical Wnt/PCP pathway, but not in the canonical Wnt/beta-catenin pathway, to regulate gastrulation movements. We also provide evidence that the Xgly4 protein physically binds Wnt ligands. Therefore, our results suggest that Xgly4 functions as positive regulator in non-canonical Wnt/PCP signaling during gastrulation.
...
PMID:Role of glypican 4 in the regulation of convergent extension movements during gastrulation in Xenopus laevis. 1266 27

Wnt signaling pathways in vertebrates use the phosphoprotein Dishevelled (Dvl). The cellular responses to Wnt signaling may in part be modulated by Dvl-associated proteins, including Dapper (Dpr). We have cloned and characterized the zebrafish Dpr paralogs Dpr1 and Dpr2. Loss-of-function studies reveal that endogenous Dpr1 but not Dpr2 is required to enhance Wnt/beta-catenin activity in zebrafish embryos that are hypomorphic for Wnt8. Conversely, Dpr2 but not Dpr1 is required for normal convergence extension movements in embryos that are hypomorphic for Stbm or Wnt11, supporting a functional interaction of Dpr2 with Wnt/Ca2+-PCP signaling. In gain-of-function experiments, Dpr1 but not Dpr2 induces Wnt/beta-catenin target genes. Dpr1 synergizes with zebrafish Dvl2, and with the Dvl-interacting kinases CK1epsilon, Par1 and CK2, in activating target genes. We conclude that two Dvl-associated paralogs, Dpr1 and Dpr2, participate in distinct Wnt-dependent developmental processes.
...
PMID:Zebrafish Dapper1 and Dapper2 play distinct roles in Wnt-mediated developmental processes. 1553 87

The kinase PAR-1 plays conserved roles in cell polarity. PAR-1 has also been implicated in axis establishment in C. elegans and Drosophila and in Wnt signaling, but its role in vertebrate development is unclear. Here we report that PAR-1 has two distinct and essential roles in axial development in Xenopus mediated by different PAR-1 isoforms. Depletion of PAR-1A or PAR-1BX causes dorsoanterior deficits, reduced Spemann organizer gene expression, and inhibition of canonical Wnt-beta-catenin signaling. By contrast, PAR-1BY depletion inhibits cell movements and localization of Dishevelled protein to the cell cortex, processes associated with noncanonical Wnt signaling. PAR-1 phosphorylation sites in Dishevelled are required for this translocation, but not for canonical Wnt signaling. We conclude that PAR-1BY is required in the PCP branch and mediates Dsh membrane localization while PAR-1A and PAR-1BX are essential for canonical signaling to beta-catenin, possibly via targets other than Dishevelled.
...
PMID:Distinct PAR-1 proteins function in different branches of Wnt signaling during vertebrate development. 1593 73

Wnt proteins are cysteine-rich glycosylated proteins named after the Drosophilia Wingless (Wg) and the mouse Int-1 genes that play a role in embryonic cell patterning, proliferation, differentiation, orientation, adhesion, survival, and programmed cell death (PCD). Wnt proteins involve at least two intracellular signaling pathways. One pathway controls target gene transcription through beta-catenin, generally referred to as the canonical pathway and a second pathway pertains to intracellular calcium (Ca(2+)) release which is termed the non-canonical or Wnt/ Ca(2+) pathway. The majority of Wnt proteins activate gene transcription through the canonical signaling pathway regulated by pathways that include the Frizzled transmembrane receptor and the co-receptor LRP-5/6, Dishevelled, glycogen synthase kinase-3beta (GSK-3beta), adenomatous polyposis coli (APC), and beta-catenin. In contrast, the non-canonical Wnt signaling pathway has two intracellular signaling cascades that consist of the Wnt/ Ca(2+) pathway with protein kinase C (PKC) and the Wnt/PCP pathway involving Rho/Rac small GTPase and Jun N-terminal kinase (JNK). Through a series of signaling pathways, Wnt proteins modulate cell development, proliferation, and cell fate. In regards to cell survival and fate through PCD, Wnt may be critical for the prevention of tissue pathology that involves cytokine and growth factor control during disorders such as neuropsychiatric disease, retinal disease, and Alzheimer's disease. Elucidation of the vital elements that shape and control the Wnt-Frizzled signaling pathway may provide significant prospects for the treatment of disorders of the nervous system.
...
PMID:Vital elements of the Wnt-Frizzled signaling pathway in the nervous system. 1620 77

The signaling pathway mediated by Wingless-type (Wnt) proteins is highly conserved in evolution. This pivotal pathway is known to regulate cell fate decisions, cell proliferation, morphology, migration, apoptosis, differentiation and stem cell self-renewal. It currently includes the canonical or Wnt/beta-catenin pathway in which Wnt proteins bind to 'frizzled' receptors, which leads to downstream activation of gene transcription by beta-catenin. Second, the noncanonical or beta-catenin-independent pathways are now known to be mediated by three possible mechanisms: (1) the Wnt/Ca(2+) pathway, (2) the Wnt/G protein signaling pathway, and (3) the Wnt/PCP or planar cell polarity pathway. Wnt signaling is implicated at several stages of mammary gland growth and differentiation, and possibly in the involution of mammary gland following lactation. Recent evidence suggests the role of Wnt signaling in human breast cancer involves elevated levels of nuclear and/or cytoplasmic beta-catenin using immunohistochemistry, overexpression or downregulation of specific Wnt proteins, overexpression of CKII and sFRP4, downregulation of WIF-1 and sFRP1, as well as amplification of DVL-1. Further research is required to determine how Wnt signaling is involved in the development of different histological types of breast cancer and whether it promotes the viability of cancer stem cells or not.
...
PMID:Wnt signaling pathway in mammary gland development and carcinogenesis. 1731 92

Wnt signaling controls a wide range of developmental processes and its aberrant regulation can lead to disease. To better understand the regulation of this pathway, we identified zebrafish homologues of Naked Cuticle (Nkd), Nkd1 and Nkd2, which have previously been shown to inhibit canonical Wnt/beta-catenin signaling. Zebrafish nkd1 expression increases substantially after the mid-blastula transition in a pattern mirroring that of activated canonical Wnt/beta-catenin signaling, being expressed in both the ventrolateral blastoderm margin and also in the axial mesendoderm. In contrast, zebrafish nkd2 is maternally and ubiquitously expressed. Overexpression of Nkd1 or Nkd2a suppressed canonical Wnt/beta-catenin signaling at multiple stages of early zebrafish development and also exacerbated the cyclopia and axial mesendoderm convergence and extension (C&E) defect in the non-canonical Wnt/PCP mutant silberblick (slb/wnt11). Thus, Nkds are sufficient to antagonize both canonical and non-canonical Wnt signaling. Reducing Nkd function using antisense morpholino oligonucleotides resulted in increased expression of canonical Wnt/beta-catenin target genes. Finally, reducing Nkd1 function in slb mutants suppressed the axial mesendoderm C&E defect. These data indicate that zebrafish Nkd1 and Nkd2 function to limit both canonical and non-canonical Wnt signaling.
...
PMID:Zebrafish Naked1 and Naked2 antagonize both canonical and non-canonical Wnt signaling. 1768 23

The simplicity of C. elegans makes it an outstanding system to study the role of Wnt signaling in development. Many asymmetric cell divisions in C. elegans require the Wnt/beta-catenin asymmetry pathway. Recent studies confirm that SYS-1 is a structurally and functionally divergent beta-catenin, and implicate lipids and retrograde trafficking in maintenance of WRM-1/beta-catenin asymmetry. Wnts also regulate short-range events such as spindle rotation and gastrulation, and a PCP-like pathway regulates asymmetric divisions. Long-range, cell non-autonomous Wnt signals regulate vulval induction. Both short-range and long-range Wnt signal s are regulated by recycling of MIG-14/Wntless via the retromer complex. These studies indicate that C. elegans continues to be useful for identifying new, conserved mechanisms underlying Wnt signaling in metazoans.
...
PMID:The long and the short of Wnt signaling in C. elegans. 1862 12

Wnt signaling plays an important role in cancer. Signaling is initiated by binding of Wnt ligands to Frizzled cell surface receptors and results in signaling via one of three pathways, the canonical Wnt pathway, which is the best characterized in both normal tissues and in cancer, and two non-canonical Wnt pathways, the Ca(2+)-dependent and the PCP pathways. Canonical Wnt signaling results in beta-catenin accumulation in the cytoplasm, translocation into the nucleus and activation of transcription of Wnt target genes including the c-Myc oncogene. Some cancer types, including colorectal cancer, have mutations in APC and Axin, which are involved in beta-catenin phosphorylation, such that the canonical pathway is constitutively active. Few studies have investigated the role non-canonical Wnt signaling in cancer, or of Wnt signaling on tumor stromal cells. Wnt overexpression is observed in tumor stroma, as is overexpression of the Wnt pathway inhibitors, secreted Frizzled-related proteins and Dickkopf proteins. Interactions between epithelial cells and stromal cells have been observed to activate Wnt signaling in both cell types. Wnt signaling is also observed in tumor blood vessels and is likely to be activated by signals from tumor cells. Current cancer therapies focus on interfering with canonical Wnt signaling in the tumor cells. Future therapeutic targets for interfering with Wnt signaling include cell surface receptors such as the RYK and Ror2 receptors and secreted signaling molecules, which mediate signaling between cancer cells and the stromal environment.
...
PMID:Importance of Wnt signaling in the tumor stroma microenvironment. 1878 92

1 2 Next >>