Abstract

beta-Endorphin- and alpha-melanotrophin (alpha-MSH)-related peptides were extracted from the pars intermedia of Xenopus laevis maintained for 2, 4 or 6 weeks on a white background and for the same periods on a black background. The peptides were resolved under dissociating conditions by gel exclusion chromatography on Sephadex G-50 and they were detected by radioimmunoassay with antibodies to beta-endorphin, alpha,N-acetyl beta-endorphin and alpha-MSH. The beta-endorphin-related peptides separated into two fractions of different molecular size. Further purification of the peptides in each fraction was by ion exchange chromatography on SP-Sephadex C-25 and by high-pressure liquid chromatography. The alpha-MSH-related peptides were resolved by gel exclusion and ion exchange chromatography. The purified beta-endorphin- and alpha-MSH-immunoreactive peptides were identified by comparison of their chromatographic properties with the corresponding peptides from porcine pituitary or by comparison with synthetic peptides. The major form of beta-endorphin in the pars intermedia of the frog adapted to a white background was identified as alpha,N-acetyl beta-endorphin (1-8); it was accompanied by a small quantity of acetylated peptides with molecular size similar to beta-endorphin. In contrast, the pars intermedia of the frogs adapted to a black background contained approximately equal amounts of alpha,N-acetyl beta-endorphin (1-8) and the larger forms of beta-endorphin. The higher molecular weight forms were identified as the alpha,N-acetyl derivatives of beta-endorphin (1-26), (1-27) and (1-31); however after 6 weeks of white adaptation the sole remaining peptide in this group was the 26-residue peptide. An additional beta-endorphin immunoreactive peptide, provisionally identified as beta-endorphin (10-26), was present in both black- and white-adapted animals; the amounts of this peptide increased during white adaptation. Major differences in the processing of alpha-MSH were also observed. In the frogs adapted to a black background des-acetyl alpha-MSH greatly predominated over the acetyl form whereas after 6- weeks adaptation to a white background the acetylated peptide proved to be the principal component. The results demonstrate that the proteolytic processing of beta-endorphin and the acetylation of alpha-MSH in Xenopus laevis are influenced by background adaptation. The formation of beta-endorphin (1-8) appears to reflect the action of an endopeptidase that acts at the single arginine residue present at position 9.(ABSTRACT TRUNCATED AT 400 WORDS)

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