Morikis, Dimitrios ; Roy, Melinda ; Sahu, Arvind ; Troganis, Anastasios ; Jennings, Patricia A. ; Tsokos, George C. ; Lambris, John D. (2002) The Structural Basis of Compstatin Activity Examined by Structure-Function-based Design of Peptide Analogs and NMR Journal of Biological Chemistry, 277 (17). pp. 14942-14953. ISSN 0021-9258
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Official URL: http://doi.org/10.1074/jbc.M200021200
Related URL: http://dx.doi.org/10.1074/jbc.M200021200
Abstract
We have previously identified compstatin, a 13-residue cyclic peptide, that inhibits complement activation by binding to C3 and preventing C3 cleavage to C3a and C3b. The structure of compstatin consists of a disulfide bridge and a type I β-turn located at opposite sides to each other. The disulfide bridge is part of a hydrophobic cluster, and the β-turn is part of a polar surface. We present the design of compstatin analogs in which we have introduced a series of perturbations in key structural elements of their parent peptide, compstatin. We have examined the consistency of the structures of the designed analogs compared with compstatin using NMR, and we have used the resulting structural information to make structure-complement inhibitory activity correlations. We propose the following. 1) Even in the absence of the disulfide bridge, a linear analog has a propensity for structure formation consistent with a turn of a 310-helix or a β-turn. 2) The type I β-turn is a necessary but not a sufficient condition for activity. 3) Our substitutions outside the type I β-turn of compstatin have altered the turn population but not the turn structure. 4) Flexibility of the β-turn is essential for activity. 5) The type I β-turn introduces reversibility and sufficiently separates the two sides of the peptide, whereas the disulfide bridge prevents the termini from drifting apart, thus aiding in the formation of the hydrophobic cluster. 6) The hydrophobic cluster at the linked termini is involved in binding to C3 and activity but alone is not sufficient for activity. 7) β-Turn residues Gln5(Asn5)-Asp6-Trp7(Phe7)-Gly8are specific for the turn formation, but only Gln5(Asn5)-Asp6-Trp7-Gly8 residues are specific for activity. 8) Trp7 is likely to be involved in direct interaction with C3, possibly through the formation of a hydrogen bond. Finally we propose a binding model for the C3-compstatin complex.
Item Type: | Article |
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Source: | Copyright of this article belongs to American Society for Biochemistry and Molecular Biology. |
ID Code: | 123321 |
Deposited On: | 13 Sep 2021 10:28 |
Last Modified: | 13 Sep 2021 10:28 |
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