Peptides and peptidoaldehydes as substrates for the Pictet–Spengler reaction

The Pictet–Spengler (PS) reaction was performed with various types of substrates: H‐Trp‐OMe and dipeptides with N‐terminal Trp as arylethylamine components and Z‐protected amino aldehydes and peptidoaldehydes as carbonyl components. We found that the C‐terminal part of Trp derivatives did not have any influence on the stereoselectivity of the reaction and the results are the same for simple esters of Trp and dipeptides. On the contrary, the selectivity of the PS reaction with peptidoaldehydes with L configuration of the C‐terminus residue is totally different from that obtained with simple L‐amino aldehydes. It allows us to obtain cis stereoisomers, which cannot be isolated from the reaction with amino aldehydes. But the utility of the peptidoaldehydes as substrates for the PS reaction is reduced by the side formation of enamides which decrease the yield of cyclization. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.     

Cross interaction of β-amyloid peptide and prion protein fragments

Summary This article presents kinetic studies of cross interaction of β-amyloid peptide and prion protein fragments. Syntheses of three peptides (β25-35, β22-35 and PrP 109–126) were performed. Those peptides were used for aggregation studies in PBS and TRIS buffers using HPLC with DAD detector. Comparison of aggregation of peptides alone and in combination with other fragments was investigated. In all cases aggregation was faster in PBS than in TRIS solution. Obtained results suggest that β-amyloid peptide and prion protein may interact to form macromolecular complexes with different ability for aggregation.     

Influence of reaction conditions on the oxidation of thiol groups in model peptidomimetic oligoureas

Working with thiols is associated with the risk of unwanted oxidation reactions, which includes the formation of disulfides. Here, the use of short peptidomimetic oligoureas as a model system to study the influence of reaction conditions on the thiol oxidation process is described. The formation of disulfide bond is usually performed in aqueous solutions; in this study, it was shown that the oxidation reaction occurs also in organic medium. It was discovered that the rate of the oxidation reaction strongly depends on the type of solvent, which is the consequence of the change of the oxidant (air or DMSO), the temperature, and the presence (or absence) of base. The details reported here may help those working with thiols to find suitable conditions to control the oxidation behaviour in organic solvents, ensuring that ─SH groups either remain intact or form disulfide bonds as desired.     

Synthesis of rigid tryptophan mimetics by the diastereoselective Pictet–Spengler reaction of β3‐homo‐tryptophan derivatives with chiral α‐amino aldehydes

The Pictet–Spengler (PS) cyclizations of β³‐hTrp derivatives as arylethylamine substrates were performed with L‐α‐amino and D‐α‐amino aldehydes as carbonyl components. During the PS reaction, a new stereogenic center was created, and the mixture of cis/trans 1,3‐disubstituted 1,2,3,4‐tetrahydro‐β‐carbolines was obtained. The ratio of cis/trans diastereomers depends on the stereogenic centre of used amino aldehyde and the size of substituents. It was confirmed by 1H and 2D NMR (ROESY) spectra. The conformations of cyclic products were studied by 2D NMR ROESY spectra. Products of the PS condensation after removal of protecting group(s) can be incorporated into a peptide chain as tryptophan mimetics with the possibility of the β‐turn induction. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.