Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously described the production of monoclonal antibodies against a preparation of membrane glycoproteins from human brain [Berglund et al. (1987) J. Neurochem. 48, 809-815]. One of the glycoproteins, recognized by monoclonal antibody CF3, was specifically expressed in the brain. We now report the isolation and characterization of this glycoprotein, called glycoprotein 135 (Gp135). Gp135 was purified by means of lentil lectin affinity chromatography and immunoaffinity chromatography, using monoclonal antibody CF3, from a crude membrane extract of human brain cortex. Gp135 was shown to consist of a glycosylated single polypeptide chain with an apparent molecular mass of 135 kDa. The size of the polypeptide moiety was estimated to 115 kDa following N-glycanase digestion. The glycoprotein is anchored in the membrane by a glycosylphosphatidylinositol tail, as shown by phospholipase C digestion and liposome incorporation experiments. Amino acid sequence analysis of the amino terminal, and of an internal peptide obtained by V8 protease digestion of the glycoprotein, revealed a strong similarity to three previously described glycoproteins from chicken (contactin and F11) and mouse (F3) brains. These glycoproteins belong to the immunoglobulin superfamily and are implicated in cell adhesion phenomena in the developing brain. Gp135 may be the human counterpart to one or several of these glycoproteins.
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PMID:Isolation and characterization of a membrane glycoprotein from human brain with sequence similarities to cell adhesion proteins from chicken and mouse. 202 73

B lymphocytes must respond to low concentrations of antigen despite having low affinity antigen receptors during the primary immune response. CD19, a B cell-restricted membrane protein of the immunoglobulin superfamily that associates with the antigen receptor complex, may help the B cell meet this requirement. Cross-linking CD19 to membrane immunoglobulin (mIg) lowers, by two orders of magnitude, the number of mIg that must be ligated to activate phospholipase C (PLC) or to induce DNA synthesis. CD19 is coupled, via protein tyrosine kinases (PTKs), to PLC and phosphatidylinositol 3' kinase (PI3' kinase), and it interacts with the Src-type nonreceptor PTK lyn. It also associates with two other membrane proteins, CR2 (complement receptor type 2, CD21), which permits nonimmunologic ligation of CD19, and TAPA-1, a member of the tetraspan family of membrane proteins. CR2 binds fragments of C3 that are covalently attached to glycoconjugates. This indirectly enables CD19 to be cross-linked to mIg after preimmune recognition of an immunogen by the complement system. CR2 also can be ligated by CD23, a lectin-like membrane protein that resides on cells that may present antigen to B cells. TAPA-1 associates with several other membrane proteins on B and T cells, including MHC class II, CD4, and CD8, and it promotes Ca2(+)- and LFA-1-independent homotypic aggregation when ligated directly or indirectly through CD19 or CR2. This may facilitate interaction of the B cell with other cells essential for cellular activation. The formation of this membrane protein complex by representatives of three different protein families helps the B cell resolve its dilemma of combining broad specificity with high sensitivity.
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PMID:The CD19/CR2/TAPA-1 complex of B lymphocytes: linking natural to acquired immunity. 754 9

VCAM-1 is an immunoglobulin superfamily member that mediates adhesion of a variety of leukocytes to endothelial cells. VCAM expression has been associated with a variety of disease states and has been implicated in a number of normal processes. The predominant form of VCAM produced in human endothelial cells is a transmembrane protein containing seven immunoglobulin domains. In this study the murine VCAM gene has been characterized to allow the function(s) of VCAM to be studied in a small genetically accessible animal. While expression of an mRNA encoding a seven-immunoglobulin-domain transmembrane VCAM protein was seen in most tissues, the predominant change in VCAM expression upon interleukin 1 beta treatment was the induction of an alternatively spliced VCAM mRNA containing only the first three immunoglobulin domains. This message encodes a glycosylphosphatidylinositol (GPI)-anchored form of VCAM, VCAMGPI. VCAMGPI was efficiently cleaved from the cell surface by phosphatidylinositol-specific phospholipase C, mediated adhesion to leukocytes in a very late antigen 4-dependent manner, and was produced by mouse endothelial cell lines in culture. These data demonstrate that alternate forms of VCAM are produced under different physiological conditions and suggest that VCAMGPI may have a distinct role in inflammatory processes.
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PMID:Cytokine induction of an alternatively spliced murine vascular cell adhesion molecule (VCAM) mRNA encoding a glycosylphosphatidylinositol-anchored VCAM protein. 768 58

Previously, our laboratory purified and isolated the cDNA for OBCAM (opioid binding cell adhesion molecule) from bovine brain, as well as highly homologous rat brain cDNA clones, SG13 and DUZ-1. Structural similarities with members of the immunoglobulin superfamily suggest a possible role for OBCAM in cell adhesion and recognition, while studies in our own laboratory suggest that OBCAM is important in the regulation of opioid binding and signal transduction. However, OBCAM lacks a putative transmembrane domain, and its possible mode of linkage to the cellular membrane has not been studied. Upon transfection of Cos 1 cells with SG13 and DUZ-1 cDNAs, the OBCAM-homologous proteins were expressed on the surface of the Cos 1 cells. These proteins were released from the membrane of the Cos 1 cells upon digestion with phosphatidylinositol-specific phospholipase C (PI-PLC), demonstrating that they are linked to the membrane via a phosphatidylinositol (PI) linkage. These results are consistent with a role for OBCAM in cell recognition and adhesion, as well as in cellular signaling.
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PMID:Expression of OBCAM-related cDNA clones in Cos 1 cells: evidence for a phosphatidylinositol linkage to the cell membrane. 896 53

Contactin (F3/F11) is an immunoglobulin superfamily cell surface glycoprotein predominantly expressed in the nervous system. To examine the structure and tissue distribution of Xenopus contactin, a cDNA clone was isolated based on the amino acid sequences conserved among chicken and mammalian contactin proteins. The conceptual translate of the cDNA consists of 1005 amino acid residues that have 70% identity to those of chicken and mammalian contactin. Northern blot hybridization using a labeled cDNA fragment revealed specific expression of 6.5 kb mRNA in the brain. Monoclonal and polyclonal antibodies prepared to the recombinant Xenopus contactin peptides detected a single 135 kD band on Western blots of the brain and spinal cord extracts. Differential extraction and phosphatidylinositol-specific phospholipase C (PI-PLC) digestion experiments showed that the immunoreactive 135 kD proteins bind, at least in part to the membrane by GPI anchor. On brain tissue sections, strong contactin immunoreactivities were detected on nerve fibers of a subset of cerebral and cerebellar neurons. These results suggest that the basic structure and tissue distribution of Xenopus contactin are similar to those in other vertebrates.
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PMID:cDNA cloning and expression of the Xenopus homologue of the neural adhesion molecule, contactin (F3/F11). 910 37

In the central nervous system, many cell adhesion molecules are known to participate in the establishment and remodeling of the neural circuit. Some of the cell adhesion molecules are known to be anchored to the membrane by the glycosylphosphatidylinositol (GPI) inserted to their C termini, and many GPI-anchored proteins are known to be localized in a Triton-insoluble membrane fraction of low density or so-called "raft." In this study, we surveyed the GPI-anchored proteins in the Triton-insoluble low density fraction from 2-week-old rat brain by solubilization with phosphatidylinositol-specific phospholipase C. By Western blotting and partial peptide sequencing after the deglycosylation with peptide N-glycosidase F, the presence of Thy-1, F3/contactin, and T-cadherin was shown. In addition, one of the major proteins, having an apparent molecular mass of 36 kDa after the peptide N-glycosidase F digestion, was found to be a novel protein. The result of cDNA cloning showed that the protein is an immunoglobulin superfamily member with three C2 domains and has six putative glycosylation sites. Since this protein shows high sequence similarity to IgLON family members including LAMP, OBCAM, neurotrimin, CEPU-1, AvGP50, and GP55, we termed this protein Kilon (a kindred of IgLON). Kilon-specific monoclonal antibodies were produced, and Western blotting analysis showed that expression of Kilon is restricted to brain, and Kilon has an apparent molecular mass of 46 kDa in SDS-polyacrylamide gel electrophoresis in its expressed form. In brain, the expression of Kilon is already detected in E16 stage, and its level gradually increases during development. Kilon immunostaining was observed in the cerebral cortex and hippocampus, in which the strongly stained puncta were observed on dendrites and soma of pyramidal neurons.
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PMID:Characterization of a novel rat brain glycosylphosphatidylinositol-anchored protein (Kilon), a member of the IgLON cell adhesion molecule family. 1007 27

Opioid-binding cell adhesion molecule (OBCAM) belongs to the immunoglobulin superfamily CAMs and shows a dendritically polarized distribution in hypothalamic magnocellular neurons. In the present study, the cellular localization of OBCAM was monitored in cultured cortical and hippocampal neurons to examine its polarized distribution. Double labeling immunofluorescence microscopy after fixation showed only faint OBCAM immunoreactivity in the neuronal somata during the early stages of culture, whereas the immunoreactivity was strong in MAP2-positive somata and dendrites of fully polarized neurons after longer culture. Moreover, the immunoreactivity for OBCAM showed a punctate pattern in the dendrites similar to the immunostaining pattern of synapsin I. High resolution revealed close apposition with only a partial overlap of synapsin I and OBCAM immunoreactivities, suggesting the synaptic localization of OBCAM to the dendrites. When the fully polarized neurons were reacted with anti-OBCAM antibody before fixation, OBCAM immunoreactivity became stronger on the dendritic surface than the somatic surface. Extracellular immunoreactivity was eliminated with phosphatidylinositol-specific phospholipase C and this immunoreactivity resisted extraction with the nonionic detergent Triton X-100 at 4 degrees C, indicating that OBCAM is attached to the rafts via a glycosylphosphatidyl inositol anchor. These results indicate that OBCAM is efficiently targeted to the dendritic surface of fully polarized cortical and hippocampal neurons. OBCAM is, hence, concluded to be a dendrite-associated CAM in cortical and hippocampal neurons as in hypothalamic magnocellular neurons.
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PMID:Polarized targeting of IgLON cell adhesion molecule OBCAM to dendrites in cultured neurons. 1285 May 79

Opioid-binding cell adhesion molecule (OBCAM) is a member of the immunoglobulin superfamily containing limbic system-associated membrane protein (IgLON) subgroup of glycosylphosphatidylinositol-anchored immunoglobulin cell adhesion molecules. We have previously found that OBCAM is localized preferentially to dendrites compared with somata and terminals of hypothalamic vasopressin-secreting magnocellular neurons. This localization indicates that OBCAM is one of the dendrite-associated cell adhesion molecules. In the present study, we further characterized the localization and the sorting mechanism, and activity-dependent changes of this molecule in vasopressin-secreting magnocellular dendrites. Confocal microscopic observation revealed the preferential localization of OBCAM at the neurosecretory granules in the vasopressin-positive dendrites. Electron microscopic observation using chromogen-intensified and gold-conjugated methods also demonstrated the OBCAM labeling at most of the neurosecretory granules within the dendrites, while the labeling within the somata was observed at only a few neurosecretory granules. I.c.v. colchicine administration resulted in the disappearance of OBCAM immunoreactivity from the dendrites and in its concomitant accumulation at the somata, suggesting that OBCAM is synthesized at the somata and transported to the dendrites by dendrite-associated neurosecretory granules. During the postnatal development, OBCAM immunoreactivity targeted to vasopressin-positive dendrites became clear from at least 3 weeks after birth, although it appeared at only a few somata 2 weeks after birth. Phosphatidylinositol specific phospholipase C treatment of the membrane fraction of the supraoptic homogenate solubilized OBCAM. Kilon, another IgLON member, was also shown to localize at the neurosecretory granules of vasopressin-positive dendrites via the glycosylphosphatidylinositol anchor. High K(+)-stimulation appeared to cause the diffusion of OBCAM-labeled gold particles from neurosecretory granules together with the exocytosis. These findings indicate that OBCAM is synthesized within the somata, attached to vasopressin neurosecretory granules via the glycosylphosphatidylinositol anchor, and transported to the dendrites. Moreover, the subcellular localization of OBCAM is changed in an activity-dependent manner.
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PMID:Dendrite-associated opioid-binding cell adhesion molecule localizes at neurosecretory granules in the hypothalamic magnocellular neurons. 1459 58