Synthesis of novel protected Nα(ω-thioalkyl) amino acid building units and their incorporation in backbone cyclic disulfide and thioetheric bridged peptides

G. Gellerman, C. Gilon, E. Glukhov, S. Gazal

Research output: Contribution to journalArticlepeer-review

27 Scopus citations

Abstract

General methods for the preparation of protected Nα(ω-thioalkyl) amino acids building units for backbone cyclization using reductive alkylation and on-resin preparation are described. The synthesis of non-Gly Fmoc-protected S-functionalized N-alkylated amino acids is based on the reaction of readily prepared protected ω-thio aldehyde with the appropriate amino acid. Preparation of Fmoc-protected S-functionalized N-alkylated Gly building units was carried out using two methods: reaction of glyoxylic acid with Acm-thioalkylamine and an on-resin reaction of bromoacetyl resin with Trt-thioalkylamines. Three model peptides were prepared using these building units. The GlyS2 building unit was incorporated into a backbone cyclic analog of somatostatin that contains a disulfide bridge. Formation of the disulfide bridge was performed by on-resin oxidation using l2 or TI(CF3COO-)3. Both methods resulted in the desired product in a high degree of purity in the crude. The AspS3 building unit was also successfully incorporated into a model peptide. In addition, the in situ generation of sulfur containing Gly building units was demonstrated on a Substance P backbone cyclic analog containing a thioether bridge.

Original languageEnglish
Pages (from-to)527-539
Number of pages13
JournalJournal of Peptide Research
Volume58
Issue number6
DOIs
StatePublished - 2001
Externally publishedYes

Keywords

  • Backbone cyclization
  • On-resin oxidation
  • Protecting groups
  • Reductive alkylation
  • S-containing building units

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