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The C-terminus of the B-chain of human insulin-like peptide 5 is critical for cognate RXFP4 receptor activity
Author(s) -
Nitin A. Patil,
Ross A. D. Bathgate,
Martina Kočan,
Sheng Yu Ang,
Julien Tailhades,
Frances Separovic,
Roger J. Summers,
Johannes Grosse,
Richard A. Hughes,
John D. Wade,
Mohammed Akhter Hossain
Publication year - 2015
Publication title -
amino acids
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.894
H-Index - 118
eISSN - 1438-2199
pISSN - 0939-4451
DOI - 10.1007/s00726-015-2144-5
Subject(s) - peptide , chemistry , residue (chemistry) , stereochemistry , c terminus , biochemistry , n terminus , receptor , peptide sequence , amide , amino acid , gene
Insulin-like peptide 5 (INSL5) is an orexigenic peptide hormone belonging to the relaxin family of peptides. It is expressed primarily in the L-cells of the colon and has a postulated key role in regulating food intake. Its G protein-coupled receptor, RXFP4, is a potential drug target for treating obesity and anorexia. We studied the effect of modification of the C-terminus of the A and B-chains of human INSL5 on RXFP4 binding and activation. Three variants of human INSL5 were prepared using solid phase peptide synthesis and subsequent sequential regioselective disulfide bond formation. The peptides were synthesized as C-terminal acids (both A- and B-chains with free C-termini, i.e., the native form), amides (both chains as the C-terminal amide) and one analog with the C-terminus of its A-chain as the amide and the C-terminus of the B-chain as the acid. The results showed that C-terminus of the B-chain is more important than that of the A-chain for RXFP4 binding and activity. Amidation of the A-chain C-terminus does not have any effect on the INSL5 activity. The difference in RXFP4 binding and activation between the three peptides is believed to be due to electrostatic interaction of the free carboxylate of INSL5 with a positively charged residue (s), either situated within the INSL5 molecule itself or in the receptor extracellular loops.

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