The antifungal properties of chicken egg cystatin against Candida yeast isolates showing different levels of azole resistance.

The increasing incidence of fungal infections together with the emergence of strains resistant to currently available antifungal drugs calls for the development of new classes of antimycotics. Naturally occurring antifungal proteins and peptides are of interest because of low toxicity, immunomodulatory potential and mechanisms of action distinct from those of currently available drugs. In this study, the potent antifungal activity of cystatin, affinity-purified from chicken egg white (CEWC), against the most frequent human fungal pathogens of the genus Candida was identified and characterised.

Designing of substrates and inhibitors of bovine alpha-chymotrypsin with synthetic phenylalanine analogues in position P(1).

The primary specificity residue of a substrate or an inhibitor, called the P(1) residue, is responsible for the proper recognition by the cognate enzyme. This residue enters the S(1) pocket of the enzyme and establishes contacts (up to 50%) inside the proteinase substrate cavity, strongly affecting its specificity. To analyze the influence on bovine alpha-chymotrypsin substrate activity, aromatic non-proteinogenic amino acid residues in position P(1) with the sequence Ac-Phe-Ala-Thr-X-Anb(5,2)-NH(2) were introduced: L-pyridyl alanine (Pal), 4-nitrophenylalanine - Phe(p-NO(2)), 4-aminophenylalanine - Phe(p-NH(2)), 4-carboxyphenylalanine Phe(p-COOH), 4-guanidine phenylalanine - Phe(p-guanidine), 4-methyloxycarbonyl-phenylalanine - Phe(p-COOMe), 4-cyanophenylalanine - Phe(p-CN), Phe, Tyr.

The influence of substrate peptide length on human beta-tryptase specificity.

Combinatorial chemistry approach was applied to design chromogenic substrates of human beta-tryptase. The most active substrate, Ala-Ala-Pro-Ile-Arg-Asn-Lys-ANB-NH(2), was selected from among over 9 million heptapeptides. The amide of 5-amino-2-nitrobenzoic acid (ANB-NH(2)) attached at the C-terminus served as a chromophore.

Design of serine proteinase inhibitors by combinatorial chemistry using trypsin inhibitor SFTI-1 as a starting structure.

A small peptide library of monocyclic SFTI-1 trypsin inhibitor from sunflower seeds modified in positions P(1) and P(4)' was synthesized using a portioning-mixing method. The peptide library was deconvoluted by the iterative approach in solution. Two trypsin ([Met(9)]-SFTI-1 and [Arg(5), Abu(9)]-SFTI-1), one chymotrypsin ([Phe(5)]-SFTI-1) and one human elastase ([Leu(5), Trp(9)]-SFTI-1) inhibitors were selected and resynthesized.

New chromogenic substrates of human neutrophil cathepsin G containing non-natural aromatic amino acid residues in position P(1) selected by combinatorial chemistry methods.

Specificity of human cathepsin G was explored using combinatorial chemistry methods. Deconvolution of a tetrapeptide library, where 5-amino-2-nitrobenzoic acid served as a chromophore attached at the C-terminus, yielded the active sequence Phe-Val-Thr-Tyr-Anb(5,2)-NH(2). This sequence was used for a second-generation library with the general formula Ac-Phe-Val-Thr-X-Anb(5,2)-NH(2), where position X was replaced with several amino acids: L-pyridyl- alanine (Pal), 4-nitro-L-phenylalanine (Nif), 4-amino-L- phenylalanine (Amf), 4-carboxy-L-phenylalanine (Cbf), 4-guanidine-L-phenylalanine (Gnf), 4-methyloxycarbonyl- L-phenylalanine (Mcf), 4-cyano-L-phenylalanine (Cyf), Phe, Tyr, Arg and Lys.