NF-κB Activity Is Induced by Neural Cell Adhesion Molecule Binding to Neurons and Astrocytes

The neural cell adhesion molecule, N-CAM, is expressed on the surface of astrocytes and neurons, and N-CAM homophilic binding has been shown to alter gene expression in both of these cell types. To determine mechanisms by which N-CAM regulates gene expression, we have analyzed DNA binding of and tra...

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Bibliographic Details
Published in:The Journal of biological chemistry 1999-01, Vol.274 (4), p.2432
Main Authors: Leslie A. Krushel, Bruce A. Cunningham, Gerald M. Edelman, Kathryn L. Crossin
Format: Article
Language:English
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Summary:The neural cell adhesion molecule, N-CAM, is expressed on the surface of astrocytes and neurons, and N-CAM homophilic binding has been shown to alter gene expression in both of these cell types. To determine mechanisms by which N-CAM regulates gene expression, we have analyzed DNA binding of and transcriptional activation by NF-κB after N-CAM binding to the cell surface. Addition of purified N-CAM, the recombinant third immunoglobulin domain of N-CAM, or N-CAM antibodies either to neonatal rat forebrain astrocytes or to cerebellar granule neurons increased NF-κB/DNA binding activity in nuclear extracts as measured by electrophoretic mobility shift assays. Analysis using supershifting antibodies indicated that, in both cell types, p50 and p65 but not p52, c-Rel, or Rel B were contained in the NF-κB-binding complex. NF-κB-mediated transcription was increased after N-CAM binding to astrocytes and neurons as demonstrated by the activation of two different luciferase reporter constructs containing NF-κB-binding sites. N-CAM binding also resulted in degradation of IκB-α protein followed by an increase in the levels of IκB-α mRNA and protein. These results indicate that N-CAM homophilic binding at the cell membrane leads to increased NF-κB binding to DNA and transcriptional activation in both neurons and astrocytes. Activation of NF-κB, however, did not influence the previously reported ability of N-CAM to inhibit astrocyte proliferation. These observations together support the hypothesis that N-CAM binding activates multiple pathways leading to changes in gene expression in both astrocytes and neurons.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.274.4.2432