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J. Biol. Chem., Vol. 259, Issue 15, 9549-9556, 08, 1984
JP Blanc and ET Kaiser
Our approach to the modeling of beta-endorphin has been based on the
proposal that three basic structural units can be distinguished in the
natural peptide hormone: a highly specific opiate recognition sequence at
the N terminus (residues 1-5) connected via a hydrophilic link (residues
6-12) to a potential amphiphilic helix in the C-terminal residues 13-31.
Our previous studies showed the validity of this approach and have
demonstrated the importance of the amphiphilic helical structure in the C
terminus of beta-endorphin. The present model, peptide 5, has been designed
in order to evaluate further the requirements of the amphiphilic secondary
structure as well as to determine the importance of this basic structural
element as compared to more specific structural features which might occur
in the C- terminal segment. For these reasons, peptide 5 retains the three
structural units previously postulated for beta-endorphin; the major
difference with regard to previous models is that the whole C-terminal
segment, residues 13-31, has been built using only D-amino acids. In
aqueous buffered solutions as well as in 2,2,2-trifluoroethanol- containing
solutions, the CD spectra of peptide 5 show the presence of a considerable
amount of left-handed helical structure. Enzymatic degradation studies
employing rat brain homogenate indicate that peptide 5 is stable in this
milieu. In delta- and mu-opiate receptor- binding assays, peptide 5 shows a
slightly higher affinity than beta- endorphin for both receptors while
retaining the same delta/mu selectivity. In opiate assays on the guinea pig
ileum, the potency of peptide 5 is twice that of beta-endorphin. In the rat
vas deferens assay, which is very specific for beta-endorphin, peptide 5
displays mixed agonist-antagonist activity. Most remarkably, peptide 5
displays a potent opiate analgesic effect when injected
intracerebroventricularly into mice. At equal doses, the analgesic effect
of peptide 5 is less than that of beta-endorphin (10-15%) but longer
lasting. In conjunction with our previous model studies, these results
clearly demonstrate that the amphiphilic helical structure in the C
terminus of beta-endorphin is of predominant importance with regard to
activity in rat vas deferens and analgesic assays. The similarity between
the in vitro and in vivo opiate activities of beta- endorphin and peptide
5, when compared to the drastic change in chirality in the latter model,
demonstrates that even a left-handed amphiphilic helix formed by D-amino
acids can function satisfactorily as a structural unit in a
beta-endorphin-like peptide.
Biological and physical properties of a beta-endorphin analog containing only D-amino acids in the amphiphilic helical segment 13-31
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