Abstract
We have previously used synthetic peptides to identify a homophilic binding site between Lys-243 and Glu-252 (KYSFNYDGSE) in the third immunoglobulin-like domain of the chick neural cell adhesion molecule (NCAM). In this report, we show that the deletion of this decapeptide sequence from chick NCAM or the scrambling of the first 5 amino acid residues led to the abolition of the homophilic binding activity of NCAM, thus confirming the role of this sequence in NCAM-NCAM binding. To investigate the involvement of individual residues of this decapeptide in NCAM binding, competition experiments were carried out using peptide analogues with various amino acid substitutions. Substitution of both Lys-243 and Asp-249 with Ala or of the 3 aromatic residues with Ala led to a total loss of activity, highlighting the importance of these residues in NCAM binding. Site-directed mutagenesis was then employed to substitute individual amino acids within the decapeptide sequence with Ala. The homophilic binding activity of mutant NCAMs transiently expressed in COS-1 cells was determined using the NCAM-Covasphere binding assay. Substitution of the charged residues with alanine decreased NCAM binding activity, implicating electrostatic interactions in NCAM binding activity. Substitution of the aromatic residues Tyr-244 and Phe-246 with Ala abolished NCAM binding activity, suggesting that hydrophobic and/or aromatic interactions may play an important role in NCAM homophilic binding. Substitution of amino acids in the predicted beta-strand portion of the decapeptide with Pro, which would tend to disrupt beta-strand conformation, led to a substantial loss of activity. Thus, NCAM-NCAM binding may also depend on the beta-backbone structure of this site. These results are consistent with the involvement of multiple amino acids within the decapeptide sequence in NCAM homophilic interaction.
Highlights
Ligation with mutant oligomer Hind 111Mutant fragments were subcloned back into the sequence (from KYSFN to FNYKS) in the NCAM homophilic binding pEC expression vectorfor transfection into COS-1 cells
From the Banting and Best Department of Medical Research,the Departments of Biochemistry and IMedical Biophysics, University of Toronto, Toronto, Ontario M5G lL6, Canada
We have previously used synthetic peptides to identify a homophilic binding sitebetween Lys-243 and Glu-252 (KYSFNYDGSE) in the third immunoglobulin-like domain of the chick neural cell adhesion molecule (NCAM). In this reporwt,e showthat thedeletion of this decapeptide sequence from chick NCAM or thescrambling of the first 5 amino acid residues led to the abolition of the homophilic binding activity of NCAM, confirming the role of this sequence in NCAM-NCAM binding
Summary
Mutant fragments were subcloned back into the sequence (from KYSFN to FNYKS) in the NCAM homophilic binding pEC expression vectorfor transfection into COS-1 cells. The cells were transfected with 20 pgof NCAM plasmid DNA the homophilic binding site.To substitute m-248A, sp-249, or Gly-250 using the calcium phosphate precipitation method [47]. Cells were cultufroerdanother the following mutant oligonucleotides with the plasmid pBE: for the 24 h for transient expression of NCAM. EcoRV-Sac sequence in Immunofluorescence Staining of NCAM-Transfected COS-1 cells plasmid pBAlOaNCAM. Binding of NCAM-conjugated Covaspheres to COS-1 cells transiently expressing NCAM. The binding of NCAM-Covaspheres to cells transiently expressing wild-type or mutant NCAM was quantified. >lo00 cells were scored for Covasphere binding, and the values were normalized to the poefrcceellnstage that showed NCAM-positive staining.
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