Koji Taketa scite author profile

Neuromedin U (NMU) are bioactive peptides with a common C-terminal heptapeptide sequence (FLFRPRN-amide, 1a) among mammals, which is responsible for receptor activation, namely NMU receptor types 1 (NMUR1) and 2 (NMUR2). Among the various physiological actions of NMU, the anorexigenic effect has recently attracted attention in drug discovery efforts for treating obesity. Although several structure-activity relationship (SAR) studies have been reported, receptor-selective small peptide agonists have yet to be disclosed. Herein a SAR study of 1a-derived peptide derivatives is described. We initially screened both human NMUR1- and NMUR2-selective peptides in calcium-mobilization assays with cells transiently expressing receptors. Then we performed a precise assay with a stable expression system of receptors and consequently discovered hexapeptides 8d and 6b possessing selective agonist activity toward each respective receptor. Hexapeptide 6b, which selectively activates NMUR2 without significant NMUR1 activation, should aid in the development of anorexigenic drugs as well as advance NMU-related endocrinological research.

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Discovery of Potent Hexapeptide Agonists to Human Neuromedin U Receptor 1 and Identification of Their Serum Metabolites

Takayama

Mori

Sohma

et al. 2015

ACS Med. Chem. Lett.

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Neuromedin U (NMU) and S (NMS) display various physiological activities, including an anorexigenic effect, and share a common C-terminal heptapeptide-amide sequence that is necessary to activate two NMU receptors (NMUR1 and NMUR2). On the basis of this knowledge, we recently developed hexapeptide agonists 2 and 3, which are highly selective to human NMUR1 and NMUR2, respectively. However, the agonists are still less potent than the endogenous ligand, hNMU. Therefore, we performed an additional structure−activity relationship study, which led to the identification of the more potent hexapeptide 5d that exhibits similar NMUR1-agonistic activity as compared to hNMU. Additionally, we studied the stability of synthesized agonists, including 5d, in rat serum, and identified two major biodegradation sites: Phe 2 -Arg 3 and Arg 5 -Asn 6 . The latter was more predominantly cleaved than the former. Moreover, substitution with 4-fluorophenylalanine, as in 5d, enhanced the metabolic stability at Phe 2 -Arg 3 . These results provide important information to guide the development of practical hNMU agonists.

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Development of the Thiol‐Selective Solid‐Supported Oligoarginine‐Conjugating Reagent KSH‐2

et al. 2015

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Koji Taketa

Discovery of Selective Hexapeptide Agonists to Human Neuromedin U Receptors Types 1 and 2

Discovery of Potent Hexapeptide Agonists to Human Neuromedin U Receptor 1 and Identification of Their Serum Metabolites

Development of the Thiol‐Selective Solid‐Supported Oligoarginine‐Conjugating Reagent KSH‐2

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