TY - JOUR
T1 - Comparative biological activities of potent analogues of α‐melanotropin
T2 - Effect of nonaromatic and para substituted aromatic amino acids at position 7
AU - WILKES, BRIAN C.
AU - CODY, WAYNE L.
AU - HRUBY, VICTOR J.
AU - CASTRUCCI, ANA MARIE DE L.
AU - HADLEY, MAC E.
PY - 1986/6
Y1 - 1986/6
N2 - Several α‐melanotropin (α‐MSH) analogues with para substituted aromatic and nonaromatic amino acids in the 7‐position of the hormone were prepared and their melanotropic activities determined in the frog (Rana pipiens) and lizard (Anolis carolinensis) skin bioassays. D and L‐Phe(p‐NO2), D‐ and L‐Tyr, D‐ and L‐Ala, and Gly were substituted in the 7‐position. The use of substituted D or L‐aromatic amino acids in the 7th position of the central Ac‐[Nle4] ‐α‐MSH4–11 ‐ NH2 fragment resulted in a loss in potency relative to the corresponding phenylalanine‐containing analogue. The loss in potency cannot be due entirely to steric hindrance at the melanophore receptor, since nonaromatic amino acids substituted in the 7th position of this octapeptide fragment also generally led to a loss in biological activity. We reported previously that replacement of phenylalanine‐7 by its D enantiomer led to a marked increase in potency in each fragment analogue tested. Analogues containing other D amino acids in the 7th position also were more potent than their L amino acid‐containing analogues with one exception: Ac‐[Nle4, Ala7]‐α‐MSH4–11‐NH2 was more potent than Ac‐[Nle4, D‐Ala7]‐α‐MSH4–11‐NH2 in the frog skin bioassay. Replacement of phenylalanine‐7 by glycine resulted in a large decrease in potency in both bioassays, illustrating the importance of the side chain group, in this position of α‐MSH, to biological potency of the hormone.
AB - Several α‐melanotropin (α‐MSH) analogues with para substituted aromatic and nonaromatic amino acids in the 7‐position of the hormone were prepared and their melanotropic activities determined in the frog (Rana pipiens) and lizard (Anolis carolinensis) skin bioassays. D and L‐Phe(p‐NO2), D‐ and L‐Tyr, D‐ and L‐Ala, and Gly were substituted in the 7‐position. The use of substituted D or L‐aromatic amino acids in the 7th position of the central Ac‐[Nle4] ‐α‐MSH4–11 ‐ NH2 fragment resulted in a loss in potency relative to the corresponding phenylalanine‐containing analogue. The loss in potency cannot be due entirely to steric hindrance at the melanophore receptor, since nonaromatic amino acids substituted in the 7th position of this octapeptide fragment also generally led to a loss in biological activity. We reported previously that replacement of phenylalanine‐7 by its D enantiomer led to a marked increase in potency in each fragment analogue tested. Analogues containing other D amino acids in the 7th position also were more potent than their L amino acid‐containing analogues with one exception: Ac‐[Nle4, Ala7]‐α‐MSH4–11‐NH2 was more potent than Ac‐[Nle4, D‐Ala7]‐α‐MSH4–11‐NH2 in the frog skin bioassay. Replacement of phenylalanine‐7 by glycine resulted in a large decrease in potency in both bioassays, illustrating the importance of the side chain group, in this position of α‐MSH, to biological potency of the hormone.
KW - melanocytes
KW - peptide diastereoisomers
KW - position 7
KW - structure‐activity relationships
KW - α‐MSH
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U2 - 10.1111/j.1399-3011.1986.tb01066.x
DO - 10.1111/j.1399-3011.1986.tb01066.x
M3 - Article
C2 - 3489682
AN - SCOPUS:0022539781
SN - 0367-8377
VL - 27
SP - 685
EP - 694
JO - International journal of peptide and protein research
JF - International journal of peptide and protein research
IS - 6
ER -