Aza-peptides are peptidomimetics in which one or more of the α-carbons, bearing the side-chain residues, has been replaced by a nitrogen.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.
Linear peptides suffer from poor pharmacokinetic and pharmacodynamic properties. Peptidomimetics are designed to overcome these pharmacological drawbacks while maintaining the biological effects of the parent peptides. Aza-peptides, in which an alpha carbon is replaced with nitrogen, are promising peptidomimetic analogs; however, little is known about the stability of these analogs toward enzymatic degradation. We performed systematic aza and N-methyl scans of a PKB/Akt inhibitor, PTR6154. We evaluated the stability of the aza-scan and N-methyl scan libraries toward enzymatic degradation by trypsin/chymotrypsin. Our results indicate that the modification site is important for metabolic stability and that aza-peptides have a more global effect than N-methylation, affecting cleavage sites distant from the modification site.
Nucleodyes, visibly colored chromophoric nucleoside analogues, are
reported. Design criteria are outlined and the syntheses of cytidine and uridine
azo dye analogues derived from 6-aminouracil are described. Structural analysis
shows that the nucleodyes are sound structural analogues of their native
nucleoside counterparts, and photophysical studies demonstrate that the
nucleodyes are sensitive to microenvironmental changes. Quantum chemical
calculations are presented as a valuable complementary tool for the design of
strongly absorbing nucleodyes, which overlap with the emission of known
fluorophores. Förster critical distance (R0)
calculations determine that the nucleodyes make good FRET pairs with both
2-aminopurine (2AP) and pyrrolocytosine (PyC). Additionally, unique
tautomerization features exhibited by 5-(4-nitrophenylazo)-6-oxocytidine
(8) are visualized by an extraordinary crystal structure.
An efficient, straightforward and inexpensive method for selective Boc deprotection on Rink-amide MBHA resin using tin(IV) chloride in dichloromethane is presented. Preliminary results suggest that the low degree of cleavage from the resin accompanying the Boc deprotection may depend on steric hindrance associated with the resin. This method can be useful as a selective deprotection step in solid-phase syntheses of cyclic peptides and small molecules in which only a few Boc deprotection steps are required.
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