Spatial Learning Activates Neural Cell Adhesion Molecule Polysialylation in a Corticohippocampal Pathway Within the Medial Temporal Lobe

Abstract: Transient and time-dependent modulations of neural cell adhesion molecule (NCAM) polysialylation in the dentate gyrus of the rodent hippocampus are a feature of spatial and nonspatial forms of learning. In the hippocampal formation, polysialic acid immunoreactivity was localized to granule-like cells and their mossy fibre axons. We now demonstrate the latter to extend to the CA3 region where apparent recurrent and Schaffer collaterals were labelled. The axons of the CA1 pyramidal cell layer were immunopositive, as was the subiculum that they innervate. Layers I and III of the entorhinal cortex stained intensely for polysialic acid; however, these were not visible in the more lateral aspect of this region and were replaced by a single band of immunopositive neurons that extended to include the perirhinal and piriform cortices. After Morris water maze training, the number of polysialylated neurons within the entorhinal cortex exhibited a two- to threefold increase at the 10–12-h posttraining time with respect to that observed immediately after training. This increase was task specific, as no change was observed in freely swimming animals or those required to locate a visible platform. These results suggest the presence of a corticohippocampal pathway involved in the eventual consolidation of memory.     

白细胞与内皮细胞的粘附

白细胞与内皮细胞相互作用由粘附分子介导.整合素、免疫球蛋白及选择素家族的粘附分子在这两种细胞的粘附中起关键作用.粘附的起始阶段由选择素介导,随后由CD11/CD18复合物与ICAM-1形成更为紧密的结合.多种细胞因子及炎症反应可诱导粘附.抗粘附分子单抗、药物等可抑制粘附.     

Localization of Multiple Functional Domains on Human PECAM-1 (CD31) by Monoclonal Antibody Epitope Mapping

PECAM-1, a cell adhesion molecule of the immunoglobulin gene (Ig) superfamily, has been implicated in white cell transmigration, integrin activation on lymphocytes, and cell-cell adhesion. The purpose of this investigation was to identify specific regions of the PECAM-1 extracellular domain mediating these functions by identifying the location of epitopes of bioactive anti-PECAM-1 monoclonal antibodies. The binding regions of mAbs important in PECAM-1-mediated leukocyte transmigration (Hec 7.2 and 3D2) were mapped to N-terminal Ig-like domains. The epitopes of monoclonal antibodies that activated integrin function on lymphocytes were dispersed over the entire extracellular region, but those that had the strongest activating effect were preferentially localized to the N-terminus of the molecule. The binding regions of mAbs that blocked PECAM-1-mediated heterophilic L-cell aggregation were located either in Ig-like domain 2 (NIH31.4) or Ig-like domain 6 (4G6 and 1.2). Site-directed mutagenesis further pinpointed the epitope of the 4G6 mAb to a hexapeptide, CAVNEG, within Ig-like domain 6.

These results demonstrate that PECAM-1 contains multiple functional domains. Regions within N-terminal Ig-like domains appear to be required for transmigration. In contrast, two distinct regions were implicated in L-cell mediated heterophilic aggregation.     

CEACAM6 as a novel target for indirect type 1 immunotoxin-based therapy in pancreatic adenocarcinoma

Immunotoxins are a potentially powerful approach for targeted anticancer therapy. We evaluated a novel immunotherapeutic strategy targeting the immunoglobulin superfamily member carcinoembryonic antigen-related cell adhesion molecule 6 (CEACAM6). Using pancreatic adenocarcinoma as a model, we show that crosslinking CEACAM6 induces its cytoplasmic accumulation and that this effect can be utilized to increase the efficacy of antibody-mediated delivery of the ribosomal inhibitory protein saporin. Exposure of cells to anti-CEACAM6 antibody, followed by secondary saporin-conjugated immunoglobulin (IgG), induced marked cytotoxicity, via caspase-mediated apoptosis, in vitro. In an in vivo nude mouse xenograft model, this immunotherapeutic approach markedly suppressed pancreatic adenocarcinoma tumor growth and enhanced tumor apoptosis. Given the prevalence of CEACAM6 overexpression among human malignancies, immunological targeting of this tumor antigen may have therapeutic applicability.     

Heterogeneity of Soluble Neural Cell Adhesion Molecule

Soluble neural cell adhesion molecule (NCAM) from rat brain neuronal cell culture media consists predominantly of a polypeptide of Mr approximately 115,000. Minor amounts of a polypeptide of Mr approximately 180,000 and two inconsistently appearing components of Mr 160,000 and 145,000 are also observed. The Mr 115,000 component is derived from the neuronal membrane NCAM components NCAM-A of Mr 190,000, NCAM-B of Mr 140,000, or both. Thus, as a part of the catabolism of membrane NCAM-A plus -B, a minor fraction is posttranslationally cleaved and recovered in the media as discernible soluble NCAM polypeptides. The half-life of membrane NCAM-A plus -B is less than 24 h. Astrocyte culture media contains a predominant soluble NCAM component of Mr 120,000 derived from membrane-associated NCAM-C. A close comparison of deglycosylated soluble NCAM from astrocyte and neuronal cultures showed a small but consistent difference in Mr, a result suggesting that different NCAM polypeptides are released from the membrane of neurons and astrocytes. In contrast to the Mr 115,000-120,000 NCAM polypeptides, the Mr 180,000 polypeptide from neuronal culture media does not seem to be derived from membrane-attached NCAM and may therefore represent a secreted NCAM isoform.     

神经细胞粘附分子结构特征和生理功能

神经细胞粘附分子是一类调节细胞与细胞、细胞与细胞外基质间粘附作用的膜表面糖蛋白,主要有NCAM-180、NCAM-140、NCAM-120三种形式,多与PSA结合在一起。在神经系统中,NCAM的表达具有时间和空间特异性,最主要的作用为调节神经系统的可塑性,这种作用可能是通过PSA-NCAM对AMPA的调节作用,主要是通过调节蛋白激酶的表达和细胞内Ca^2 浓度来实现的。     

Structural abnormalities in the primary somatosensory cortex and a normal behavioral profile in Contactin-5 deficient mice

Contactin-5 (Cntn5) is an immunoglobulin cell adhesion molecule that is exclusively expressed in the central nervous system. In view of its association with neurodevelopmental disorders, particularly autism spectrum disorder (ASD), this study focused on Cntn5-positive areas in the forebrain and aimed to explore the morphological and behavioral phenotypes of the Cntn5 null mutant (Cntn5^?/?) mouse in relation to these areas and ASD symptomatology. A newly generated antibody enabled us to elaborately describe the spatial expression pattern of Cntn5 in P7 wild type (Cntn5^+/+) mice. The Cntn5 expression pattern included strong expression in the cerebral cortex, hippocampus and mammillary bodies in addition to described previously brain nuclei of the auditory pathway and the dorsal thalamus. Thinning of the primary somatosensory (S1) cortex was found in Cntn5^?/? mice and ascribed to a misplacement of Cntn5-ablated cells. This phenotype was accompanied by a reduction in the barrel/septa ratio of the S1 barrel field. The structure and morphology of the hippocampus was intact in Cntn5^?/? mice. A set of behavioral experiments including social, exploratory and repetitive behaviors showed that these were unaffected in Cntn5^?/? mice. Taken together, these data demonstrate a selective role of Cntn5 in development of the cerebral cortex without overt behavioral phenotypes.     

多聚唾液酸转移酶研究进展

多聚唾液酸(polysialic acid,PSA)是一类线性、均一多聚α2,8连接唾液酸的独特碳水化合物,它主要通过典型的N-连接糖苷键附着在脊椎动物神经系统神经黏附分子(neural cell adhesion molecule,NCAM)上。PSA通过改变NCAM的黏附性调节神经细胞发育、神经导向以及突触形成,从而在神经发育中起关键作用。PSA表达的调节具有时间和结构依赖性,NCAM的唾液酸化是由两种多聚唾液酸转移酶(polysialyltrans ferases)-ST8Sia II(STX)和ST8Sia IV(PST)所催化,它们都属于6个基因编码的α2,8唾液酸转移酶家族。STX和PST都可将多个唾液酸残基转移到含有NeuNAcα2-3(或6)Galβ1-4GlcNAcβ1-R结构的N糖链受体上;两种酶共同作用时远远大于一种酶形成的PSA量。总之,多聚唾液酸转移酶可调节PSA的合成并参与了脊椎动物的神经发育。     

Galectin-3, a β-Galactoside-Binding Animal Lectin, Binds to Neural Recognition Molecules

Abstract: In this study, we have investigated the ability of galectin-3, a β-galactoside-binding animal lectin, to interact in vitro with different neural tissue-derived glycoproteins involved in cell-cell and cell-substrate adhesion. Galectin-3 interacted to varying degrees with the cell recognition molecules L1, the myelin-associated glycoprotein, and the neural cell adhesion molecule and the extracellular matrix molecules tenascin-C and tenascin-R but not with collagen type I. Binding of galectin-3 to the different glycoproteins tested was carbohydrate dependent and could be specifically inhibited by the addition of lactose and, to a lesser extent, galactose.     

F3/contactin,a neuronal cell adhesion molecule implicated in axogenesis and myelination

A general feature of the cell adhesion molecules belonging to the immunoglobulin family (Ig-CAMs) is to display a modular structure that provides a framework for multiple binding sites for other recognition molecules. Among this family, F3/contactin is a glycan phosphatidyl-inositol (GPI)-anchored molecule expressed by neurons that displays the distinctiveness to exert heterophilic but no homophilic binding activities. The Ig domains of F3/contactin were shown to interact with the L1 family of Ig-CAMs, including L1, NrCAM, and neurofascin. Binding between F3/contactin and NrCAM is known to modulate axonal elongation of the cerebellar granule cells and to control sensory axon guidance. F3/contactin mediates neuron-glial contacts through its association with extracellular matrix components (tenascin-R, tenascin-C) and RPTPbeta/phosphacan, influencing axonal growth and fasciculation. Another major role of F3/contactin is to organize axonal subdomains at the node of Ranvier of myelinated fibers in interplay with other Ig-CAMs, through its binding with caspr/paranodin at paranodes and the voltage-gated sodium channels in the nodal region. The F3/contactin deficient mice display a severe ataxia correlated with defects in axonal and dendritic projections in the cerebellum. These mice also display defects in nerve influx conduction due to the disruption of the axo-glial contacts at paranodes. Finally, the recent identification of a Drosophila homologue of F3/contactin indicated that this family of GPI-anchored CAMs plays a conserved function in axonal insulation.     

Equilibrium Binding Analysis of Neural Cell Adhesion Molecule Binding to Heparin

The kinetics of neural cell adhesion molecule (NCAM) binding to heparin were studied in a heparin-Sepharose-based solid-phase binding assay. The observed binding is time dependent and saturable. A binding constant of 5.2 +/- 1.4 X 10(-8) M is observed for binding of newborn rat NCAM to heparin. This is approximately 25 times lower than the binding constant determined for newborn rat NCAM homophilic binding. Both Scatchard and Hill plot analyses suggest the presence of only one binding site. Fab' fragments of antibodies to rat NCAM significantly inhibit binding, a result indicating that a specific site on NCAM is involved in binding to heparin. The binding is inhibited by heparin (IC50, approximately 5 micrograms/ml), whereas chondroitin sulfate is a less potent inhibitor (IC50, approximately 15 micrograms/ml).