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Inhibiting alternative pathway complement activation by targeting the factor D exosite.


ABSTRACT: By virtue of its amplifying property, the alternative complement pathway has been implicated in a number of inflammatory diseases and constitutes an attractive therapeutic target. An anti-factor D Fab fragment (AFD) was generated to inhibit the alternative complement pathway in advanced dry age-related macular degeneration. AFD potently prevented factor D (FD)-mediated proteolytic activation of its macromolecular substrate C3bB, but not proteolysis of a small synthetic substrate, indicating that AFD did not block access of the substrate to the catalytic site. The crystal structures of AFD in complex with human and cynomolgus FD (at 2.4 and 2.3 ?, respectively) revealed the molecular details of the inhibitory mechanism. The structures show that the AFD-binding site includes surface loops of FD that form part of the FD exosite. Thus, AFD inhibits FD proteolytic function by interfering with macromolecular substrate access rather than by inhibiting FD catalysis, providing the molecular basis of AFD-mediated inhibition of a rate-limiting step in the alternative complement pathway.

SUBMITTER: Katschke KJ 

PROVIDER: S-EPMC3339934 | biostudies-literature | 2012 Apr

REPOSITORIES: biostudies-literature

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Inhibiting alternative pathway complement activation by targeting the factor D exosite.

Katschke Kenneth J KJ   Wu Ping P   Ganesan Rajkumar R   Kelley Robert F RF   Mathieu Mary A MA   Hass Philip E PE   Murray Jeremy J   Kirchhofer Daniel D   Wiesmann Christian C   van Lookeren Campagne Menno M  

The Journal of biological chemistry 20120223 16


By virtue of its amplifying property, the alternative complement pathway has been implicated in a number of inflammatory diseases and constitutes an attractive therapeutic target. An anti-factor D Fab fragment (AFD) was generated to inhibit the alternative complement pathway in advanced dry age-related macular degeneration. AFD potently prevented factor D (FD)-mediated proteolytic activation of its macromolecular substrate C3bB, but not proteolysis of a small synthetic substrate, indicating that  ...[more]

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