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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

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Horn, M. et al.

Horn, Pavlík, Dolecková, Baudys, Mares,

Arginine-based structures are specific inhibitors of cathepsin C. Application of peptide combinatorial libraries.

Novel synthetic peptide inhibitors of lysosomal cysteine proteinase cathepsin C have been designed through the use of soluble peptide combinatorial libraries. The uncovered structural inhibitory module consists of the N-terminal cluster of L-arginine residues. Its modification with D-amino acids or arginine derivatives did not increase the inhibition strength. Inhibitory potency of oligoarginines improves with the elongation of peptide chain reaching a maximum for octa-L-arginine. The oligoarginines specifically interact with the cathepsin C active site as shown by competitive-type inhibition kinetics (Ki approximately 10-5 M) and intrinsic fluorescence measurements. The inhibitory interaction of oligoarginines is established through the specific spatial contact of a net of guanidino groups in the arginine side-chains, as indicated by comparison with inhibitory action of low molecular mass guanidine derivatives (Ki approximately 10-3 M). Nonarginine polyionic compounds cannot mimic the inhibitory effect of oligoarginines. The arginine-based peptide inhibitors were selective towards cathepsin C among other cysteine proteinases tested.[1]

References

Arginine-based structures are specific inhibitors of cathepsin C. Application of peptide combinatorial libraries. Horn, M., Pavlík, M., Dolecková, L., Baudys, M., Mares, M. Eur. J. Biochem. (2000) [Pubmed]

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