Investigation of the lectin-like binding domains in pertussis toxin using synthetic peptide sequences. Identification of a sialic acid binding site in the S2 subunit of the toxin

Investigation of the lectin-like binding domains in pertussis toxin using synthetic peptide sequences. Identification of a sialic acid binding site in the S2 subunit of the toxin

Synthetic peptides corresponding to selected sequences in the S2 and S3 subunits of pertussis toxin were prepared and evaluated for their ability to inhibit the binding of biotinylated pertussis toxin and three biotinylated sialic acid specific plant lectins to fetuin and asialofetuin. The screening...

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Bibliographic Details
Published in:The Journal of biological chemistry Vol. 267; no. 36; pp. 25810 - 25815
Main Authors: HEERZE, L. D, CHONG, P. C. S, ARSMTRONG, G. D
Format: Journal Article
Language:English
Published: Bethesda, MD American Society for Biochemistry and Molecular Biology 25-12-1992
Subjects:
alpha-Fetoproteins - metabolism
Amino Acid Sequence
Analytical, structural and metabolic biochemistry
binding
Binding and carrier proteins
Binding Sites
Binding, Competitive
Biological and medical sciences
Bordetella pertussis
domains
Enzyme-Linked Immunosorbent Assay
Fundamental and applied biological sciences. Psychology
Kinetics
Lectins - metabolism
Macromolecular Substances
Molecular Sequence Data
N-Acetylneuraminic Acid
Peptide Fragments - chemical synthesis
Peptide Fragments - metabolism
peptides
Peptides - chemical synthesis
Peptides - metabolism
Pertussis Toxin
Proteins
sialic acid
Sialic Acids - metabolism
subunits
synthetic
toxins
Virulence Factors, Bordetella - chemistry
Virulence Factors, Bordetella - metabolism
Ligand binding
Lectin
Sialic acid
Bacteria
Islet activating protein
Binding site
Bordetella pertussis
Glycoconjugate
Localization
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Description
Summary:Synthetic peptides corresponding to selected sequences in the S2 and S3 subunits of pertussis toxin were prepared and evaluated for their ability to inhibit the binding of biotinylated pertussis toxin and three biotinylated sialic acid specific plant lectins to fetuin and asialofetuin. The screening results indicated that two regions in the S2 subunit corresponding to amino acids 78-98 and 123-154 inhibited pertussis toxin binding to fetuin at submillimolar concentrations, while S3 sequences corresponding to amino acids 87-108 and 134-154 inhibited pertussis toxin-biotin binding to asialofetuin albeit with lower affinity. These results confirm earlier findings, which suggest that the S2 subunit is responsible for binding sialylated glycoconjugates. This was further confirmed by the ability of S2 peptides to inhibit the binding of the lectins from Maackia amurensis and wheat germ to fetuin. Two additional peptides from the S2 subunit of pertussis toxin corresponding to sequences 9-23 and 1-23 were found to contain within their sequences a 6-amino acid fragment which has strong homology with a sequence in wheat germ agglutinin that has been shown to be a component of the sialic acid binding site as determined by x-ray crystallography. One of these sequences from S2 (9-23) was biotinylated and evaluated for its ability to bind to carbohydrate. Through a series of experiments using fetuin, asialofetuin, asialoagalactofetuin, and simple saccharides, the biotinylated peptide was shown to bind with high affinity to sialic acid-containing glycoconjugates indicating that these sequences within the S2 subunit of pertussis toxin also play an important role in binding sialic acid.
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ISSN:0021-9258
1083-351X
DOI:10.1016/s0021-9258(18)35682-5