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Mast cell binding of neurotensin. II. Molecular conformation of neurotensin involved in the stereospecific binding to mast cell receptor sites.
Systematic substitution of the natural L-amino acids in neurotensin by their D isomers reveals that the COOH-terminal portion of this tridecapeptide is required for binding to mast cell receptors: D-amino acid replacements from Pro10 through Leu13 substantially decrease that binding. Either blockage of the COOH-terminal carboxyl group as with N-methylamidation, or formation of a cyclic structure by the inclusion of a disulfide bond, a Cys2,13 substitution, markedly reduces the specific binding to mast cell receptor sites. Modifications in the NH2-terminal portion of neurotensin do not affect the binding to mast cells. However, D-Arg8 and D-Arg9 substitutions increase binding by factors of 5- to 6-fold. The hydroxyl group at position 3 or 11 is not essential for binding since Phe3 or Phe11 is equivalent to Tyr3 or Tyr11. The COOH-terminal penta- and hexapeptides are able to displace approximately 70% 125I-neurotensin relative to the intact peptide. Of 18 other biologically active peptides tested, only xenopsin, a naturally occurring COOH-terminal analog of neurotensin, and bradykinin effectively compete in the binding assay to an extent of 60 and 100%, respectively. Histamine, diphenhydramine, and noradrenaline are ineffective in this regard.[1]References
- Mast cell binding of neurotensin. II. Molecular conformation of neurotensin involved in the stereospecific binding to mast cell receptor sites. Lazarus, L.H., Perrin, M.H., Brown, M.R., Rivier, J.E. J. Biol. Chem. (1977) [Pubmed]
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