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Polysialic Acid (polysialic + acid)
Selected AbstractsPolysialic acid regulates cell contact-dependent neuronal differentiation of progenitor cells from the subventricular zoneDEVELOPMENTAL DYNAMICS, Issue 4 2004Athanasios K. Petridis Abstract Expression of polysialic acid (PSA) promotes migration of progenitor cells from the subventricular zone (SVZ) to the olfactory bulb, where they differentiate into interneurons. This differentiation has been found to coincide with a loss of PSA. Moreover, specific removal of PSA from the mouse SVZ by endoneuraminidase-N was found to cause premature differentiation, as evidenced by neurite outgrowth and tyrosine hydroxylase synthesis in vivo and by expression of neurofilament-L and ,III-tubulin in SVZ explant cultures. This differentiation involved activation of mitogen-activated protein kinase through p59fyn and was blocked by its inhibition. The effects of PSA removal were found to be cell contact-dependent and to be reduced by anti,neural cell adhesion molecule antibodies. These findings indicate that PSA expression regulates the fate of SVZ precursors by two contact-dependent mechanisms, the previously reported reduction in cell,cell adhesion that allows cell translocation, and the postponement of cell differentiation that otherwise would be induced by signals generated through surface molecule-mediated cell,cell interactions. Developmental Dynamics 230:675,684, 2004. © 2004 Wiley-Liss, Inc. [source] Polysialic acid controls NCAM-induced differentiation of neuronal precursors into calretinin-positive olfactory bulb interneuronsDEVELOPMENTAL NEUROBIOLOGY, Issue 9 2008Iris Röckle Abstract Understanding the mechanisms that regulate neurogenesis is a prerequisite for brain repair approaches based on neuronal precursor cells. One important regulator of postnatal neurogenesis is polysialic acid (polySia), a post-translational modification of the neural cell adhesion molecule NCAM. In the present study, we investigated the role of polySia in differentiation of neuronal precursors isolated from the subventricular zone of early postnatal mice. Removal of polySia promoted neurite induction and selectively enhanced maturation into a calretinin-positive phenotype. Expression of calbindin and Pax6, indicative for other lineages of olfactory bulb interneurons, were not affected. A decrease in the number of TUNEL-positive cells indicated that cell survival was slightly improved by removing polySia. Time lapse imaging revealed the absence of chain migration and low cell motility, in the presence and absence of polySia. The changes in survival and differentiation, therefore, could be dissected from the well-known function of polySia as a promoter of precursor migration. The differentiation response was mimicked by exposure of cells to soluble or substrate-bound NCAM and prevented by the C3d-peptide, a synthetic ligand blocking NCAM interactions. Moreover, a higher degree of differentiation was observed in cultures from polysialyltransferase-depleted mice and after NCAM exposure of precursors from NCAM-knockout mice demonstrating that the NCAM function is mediated via heterophilic binding partners. In conclusion, these data reveal that polySia controls instructive NCAM signals, which direct the differentiation of subventricular zone-derived precursors towards the calretinin-positive phenotype of olfactory bulb interneurons. © 2008 Wiley Periodicals, Inc. Develop Neurobiol, 2008 [source] Regulation of hippocampal cell adhesion molecules NCAM and L1 by contextual fear conditioning is dependent upon time and stressor intensityEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 9 2000J. Joaquín Merino Abstract Cell adhesion molecules (CAMs) of the immunoglobulin superfamily, NCAM and L1, as well as the post-translational addition of ,-2,8-linked polysialic acid (PSA) homopolymers to NCAM (PSA,NCAM), have been implicated in the neural mechanisms underlying memory formation. Given that the degree of stress elicited by the training situation is one of the key factors that influence consolidation processes, this study questioned whether training rats under different stressor intensities (0.2, 0.4, or 1 mA shock intensity) in a contextual fear conditioning task might regulate subsequent expression of NCAM, PSA,NCAM and L1 in the hippocampus, as evaluated immediately after testing rats for conditioning at 12 and 24 h after training. Behavioural inhibition (evaluated as a ,freezing' index) at testing and post-testing plasma corticosterone levels were also assessed. The results showed that 12 h post-training, conditioned animals displayed reduced NCAM, but increased L1, expression. At this time point, the group trained at the highest shock intensity (1 mA) also presented decreased PSA,NCAM expression. Analyses performed 24 h post-training indicated that the 1 mA group exhibited increased NCAM and L1 expression, but decreased expression of PSA,NCAM levels. In addition, L1 values that presented a shock intensity-dependent U-shaped pattern were also increased in the group trained at the lowest shock condition (0.2 mA) and remained unchanged in the intermediate shock condition (0.4 mA). Freezing and corticosterone values at both testing times were positively related with shock intensity experienced at training. Therefore, our results show a complex regulation of CAMs of the immunoglobulin superfamily in the hippocampus that depends upon stressor intensity and time factors. In addition, the pattern of CAMs expression found in the 1 mA group (which is the one that shows higher post-training corticosterone levels and develops the stronger and longer-lasting levels of fear conditioning) supports the view that, after a first phase of synaptic de-adherence during consolidation, NCAM and L1 might participate in the stabilization of selected synapses underlying the establishment of long-term memory for contextual fear conditioning, and suggests that glucocorticoids might play a role in the observed regulation of CAMs. [source] BMP and LIF signaling coordinately regulate lineage restriction of radial glia in the developing forebrainGLIA, Issue 1 2007Hedong Li Abstract The earliest radial glia are neural stem cells that guide neural cell migration away from ventricular zones. Subsequently, radial glia become lineage restricted during development before they differentiate into more mature cell types in the CNS. We have previously shown that subpopulations of radial glial cells express markers for glial and neuronal restricted precursors (GRPs and NRPs) in expression patterns that are temporally and spatially regulated during CNS development. To characterize further the mechanism of this regulation in rat forebrain, we tested whether secreted factors that are present during development effect lineage restriction of radial glia. We show here that in radial glial cultures LIF/CNTF up-regulates, whereas BMP2 down-regulates GRP antigens recognized by monoclonal antibodies A2B5/4D4. These activities combined with secretion of BMPs dorsally and LIF/CNTF from the choroid plexus provide an explanation for the graded distribution pattern of A2B5/4D4 in dorso-lateral ventricular regions in vivo. The regulation by LIF/CNTF of A2B5/4D4 is mediated through the JAK-STAT pathway. BMP2 promotes expression on radial glial cells of the NRP marker polysialic acid most likely by regulating N-CAM expression itself, as well as at least one polysialyl transferase responsible for synthesis of polysialic acid on N-CAM. Taken together, these results suggest that generation of lineage-restricted precursors is coordinately regulated by gradients of the secreted factors BMPs and LIF/CNTF during development of dorsal forebrain. © 2006 Wiley-Liss, Inc. [source] Targeting epileptogenesis-associated induction of neurogenesis by enzymatic depolysialylation of NCAM counteracts spatial learning dysfunction but fails to impact epilepsy developmentJOURNAL OF NEUROCHEMISTRY, Issue 2 2008Anton Pekcec Abstract Polysialylation is a post-translational modification of the neural cell adhesion molecule (NCAM), which in the adult brain promotes structural changes in regions of neurogenesis and neuroplasticity. Because a variety of plastic changes including neurogenesis have been suggested to be functionally involved in the pathophysiology of epilepsies, it is of specific interest to define the impact of the polysialic acid (PSA)-NCAM system on development of this disease and associated comorbidities. Therefore, we studied the impact of transient enzymatic depolysialylation of NCAM on the pathophysiology in an electrically induced rat post-status epilepticus (SE) model. Loss of PSA counteracted the SE-induced increase in neurogenesis in a significant manner. This effect of endoneuraminidase (endoN) treatment on hippocampal neurogenesis did not impact the subsequent development of spontaneous seizures. In contrast, transient lack of PSA during SE and in the early phase of epileptogenesis exhibited a cognition sparing effect as revealed in the Morris water maze paradigm. In conclusion, our data do not support a central role of neurogenesis in the development of a hyperexcitable epileptic network. However, in view of the cognition-sparing effect, the transient modulation of the PSA-NCAM system seems to allow beneficial long-term disease modification, which might be mediated by the partial normalization of neurogenesis. [source] Alcohol Exposure Alters the Expression Pattern of Neural Cell Adhesion Molecules During Brain DevelopmentJOURNAL OF NEUROCHEMISTRY, Issue 3 2000R. Miñana Abstract: Neural cell adhesion molecules (NCAMs) play critical roles during development of the nervous system. The aim of this study is to investigate the possible effect of ethanol exposure on the pattern of expression and sialylation of NCAM isoforms during postnatal rat brain development because alterations in NCAM content and distribution have been associated with defects in cell migration, synapse formation, and memory consolidation, and deficits in these processes have been observed after in utero alcohol exposure. The expression of NCAM isoforms in the developing cerebral cortex of pups from control and alcohol-fed mothers was assessed by western blotting, ribonuclease protection assay, and immunocytochemistry. The highly sialylated form of NCAM [polysialic acid (PSA)-NCAM] is mainly expressed during the neonatal period and then is down-regulated in parallel with the appearance of NCAM 180 and NCAM 140. Ethanol exposure increases PSA-NCAM levels during the neonatal period, delays the loss of PSA-NCAM, decreases the amount of NCAM 180 and NCAM 140 isoforms, and reduces sialyltransferase activity during postnatal brain development. Neuraminidase treatment of ethanol-exposed neonatal brains leads to more intense band degradation products, suggesting a higher content of NCAM polypeptides carrying PSA in these samples. However, NCAM mRNA levels are not changed by ethanol. Immunocytochemical analysis demonstrates that ethanol triggers an increase in PSA-NCAM immunolabeling in the cytoplasm of astroglial cells, accompanied by a decrease in immunogold particles over the plasma membrane. These findings indicate that ethanol exposure during brain development alters the pattern of NCAM expression and suggest that modification of NCAM could affect neuronal-glial interactions that might contribute to the brain defects observed after in utero alcohol exposure. [source] Intracellular fibroblast growth factor produces effects different from those of extracellular application on development of avian cochleovestibular ganglion cells in vitroJOURNAL OF NEUROSCIENCE RESEARCH, Issue 5 2003Masako M. Bilak Abstract In an avian coculture system, the neuronal precursors of the cochleovestibular ganglion typically migrated from the otocyst and differentiated in response to soluble fibroblast growth factor (FGF-2), which had free access to FGF receptors on the cell surface. Free FGF-2 switched cells from a proliferation mode to migration, accompanied by increases in process outgrowth, fasciculation, and polysialic acid expression. Microsphere-bound FGF-2 had some of the same effects, but in addition it increased proliferation and decreased fasciculation and polysialic acid. As shown by immunohistochemistry, FGF-2 that was bound to latex microspheres depleted the FGF surface receptor protein, which localized with the microspheres in the cytoplasm and nucleus. For microsphere-bound FGF-2, the surface receptor-mediated responses to FGF-2 appear to be limited and the door opened to another venue of intracellular events or an intracrine mechanism. © 2003 Wiley-Liss, Inc. [source] Structure analysis of endosialidase NF at 0.98,Å resolutionACTA CRYSTALLOGRAPHICA SECTION D, Issue 2 2010Eike C. Schulz Endosialidase NF (endoNF) is a bacteriophage-derived endosialidase that specifically degrades ,-2,8-linked polysialic acid. The structure of a new crystal form of endoNF in complex with sialic acid has been refined at 0.98,Å resolution. The 210,kDa homotrimeric multi-domain enzyme displays outstanding stability and resistance to SDS. Even at atomic resolution, only a minor fraction of side chains possess alternative conformations. However, multiple conformations of an active-site residue imply that it has an important catalytic function in the cleavage mechanism of polysialic acid. [source] X-ray investigation of gene-engineered human insulin crystallized from a solution containing polysialic acidACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 3 2010V. I. Timofeev Attempts to crystallize the noncovalent complex of recombinant human insulin with polysialic acid were carried out under normal and microgravity conditions. Both crystal types belonged to the same space group, I213, with unit-cell parameters a = b = c = 77.365,Å, , = , = , = 90.00°. The reported space group and unit-cell parameters are almost identical to those of cubic insulin reported in the PDB. The results of X-ray studies confirmed that the crystals obtained were cubic insulin crystals and that they contained no polysialic acid or its fragments. Electron-density maps were calculated using X-ray diffraction sets from earth-grown and microgravity-grown crystals and the three-dimensional structure of the insulin molecule was determined and refined. The conformation and secondary-structural elements of the insulin molecule in different crystal forms were compared. [source] | |||||||||||||