Microwave-assisted solid-phase aza-peptide synthesis: Aza scan of a PKB/Akt inhibitor using aza-arginine and aza-proline precursors

Noam S. Freeman; Yftah Tal-Gan; Shoshana Klein; Alexander Levitzki; Chaim Gilon

doi:10.1021/jo102422x

Microwave-assisted solid-phase aza-peptide synthesis: Aza scan of a PKB/Akt inhibitor using aza-arginine and aza-proline precursors

Noam S. Freeman, Yftah Tal-Gan, Shoshana Klein, Alexander Levitzki, Chaim Gilon^*

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

58 Scopus citations

Abstract

Aza-peptides are peptidomimetics in which one or more of the α-carbons, bearing the side-chain residues, has been replaced by a nitrogen. These peptidomimetics have been shown to be promising for the generation of drug leads and for structure-activity relationship studies. Aza-scan is the systematic replacement of amino acid residues in a given peptide with their aza counterparts. We report here an aza-scan of a potent, peptide-based PKB/Akt inhibitor, PTR6154. Procedures for microwave-assisted, Fmoc/t-Bu chemistry, solid-phase aza-peptide synthesis were developed which significantly reduce standard reaction time and are suitable for automation. Novel substituted hydrazines have been prepared for the straightforward incorporation of aza-arginine and aza-proline residues. This work will enable aza-scan to become a more common and standard method for structure-activity relationship studies of peptides.

Original language	English
Pages (from-to)	3078-3085
Number of pages	8
Journal	Journal of Organic Chemistry
Volume	76
Issue number	9
DOIs	https://doi.org/10.1021/jo102422x
State	Published - 6 May 2011

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abstract = "Aza-peptides are peptidomimetics in which one or more of the α-carbons, bearing the side-chain residues, has been replaced by a nitrogen. These peptidomimetics have been shown to be promising for the generation of drug leads and for structure-activity relationship studies. Aza-scan is the systematic replacement of amino acid residues in a given peptide with their aza counterparts. We report here an aza-scan of a potent, peptide-based PKB/Akt inhibitor, PTR6154. Procedures for microwave-assisted, Fmoc/t-Bu chemistry, solid-phase aza-peptide synthesis were developed which significantly reduce standard reaction time and are suitable for automation. Novel substituted hydrazines have been prepared for the straightforward incorporation of aza-arginine and aza-proline residues. This work will enable aza-scan to become a more common and standard method for structure-activity relationship studies of peptides.",

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AU - Tal-Gan, Yftah

AU - Klein, Shoshana

AU - Levitzki, Alexander

AU - Gilon, Chaim

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Microwave-assisted solid-phase aza-peptide synthesis: Aza scan of a PKB/Akt inhibitor using aza-arginine and aza-proline precursors

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