Further studies on the structural requirements for polypeptide-mediated histamine release from rat mast cells

Structure-activity studies have been performed on a series of naturally occurring and 'tailor-made' polypeptides, by measurement of ability to induce selective histamine release from normal rat peritoneal mast cells in vitro. Compounds investigated include corticotropin and melittin deriva...

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Veröffentlicht in:Biochemical journal 1979-09, Vol.181 (3), p.623-632
Hauptverfasser: Jasani, B, Kreil, G, Mackler, B F, Stanworth, D R
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Sprache:eng
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Zusammenfassung:Structure-activity studies have been performed on a series of naturally occurring and 'tailor-made' polypeptides, by measurement of ability to induce selective histamine release from normal rat peritoneal mast cells in vitro. Compounds investigated include corticotropin and melittin derivatives, mast-cell-degranulating peptide from bee venom, polymyxin B, bradykinin and various synthetic poly(amino acids) and short-chain peptides. It was confirmed that a cluster of four basic residues (lysine or arginine) was optimal for histamine release by corticotropin and melittin polypeptides, provided that the C-terminal carboxyl group was substituted (by, for instance, amidation). In contrast, the presence of a free C-terminal carboxyl group or nearby dicarboxylic acid residues led to a considerable diminution in histamine-releasing activity. Likewise, polypeptides comprised essentially of acidic amino acids were inactive. On the basis of these observations it has been possible to predict that synthetic peptides comprising a particular sequence within the Fc region of human immunoglobulin E, the immunoglobulin class particularly involved in mediation of allergic reactions of the immediate type, would possess potent histamine-releasing activity when similarly made to react with normal rat mast cells. The further study of such a structure should throw new light on the molecular basis of allergen-antibody triggering of mast cells.
ISSN:0264-6021
1470-8728
DOI:10.1042/bj1810623