A Convenient On-Site Oxidation Strategy for the N-Hydroxylation of Melanostatin Neuropeptide Using Cope Elimination

Author:

Sampaio-Dias Ivo E.ORCID,Silva-Reis Sara C.,Pires-Lima Beatriz L.ORCID,Correia Xavier Cruz,Costa-Almeida Hugo F.

Abstract

AbstractA convenient synthetic protocol for the unprecedented N-hydroxylation of proline residue in Melanostatin (MIF-1) neuropeptide is reported. This methodology is grounded on the incorporation of N-(cyanoethyl)prolyl residue followed by on-site oxidation by Cope elimination with m-chloroperbenzoic acid, exploring the unrecognized dual role of the cyanoethyl group as an effective N-protecting group under peptide synthesis conditions and as a suitable leaving group during the chemoselective on-site N-oxidation. Following this protocol N-hydroxy-MIF-1 is obtained in 78% global yield from N-(cyanoethyl)-l-proline. This synthetic approach opens a new avenue for access to N-hydroxylated Melanostatin analogues with direct application in neurochemistry and Parkinson’s research.

Funder

Fundação para a Ciência e a Tecnologia

Publisher

Georg Thieme Verlag KG

Subject

Organic Chemistry,Catalysis

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