A novel inhibitor of the alternative pathway of complement reverses inflammation and bone destruction in experimental arthritis

doi:10.1084/jem.20070432

Published online
doi:10.1084/jem.20070432
The Journal of Experimental Medicine, Vol. 204, No. 6, 1319-1325
The Rockefeller University Press, 0022-1007 $30.00
© Katschke et al.

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BRIEF DEFINITIVE REPORT

A novel inhibitor of the alternative pathway of complement reverses inflammation and bone destruction in experimental arthritis

Kenneth J. Katschke, Jr.¹, Karim Y. Helmy¹, Micah Steffek², Hongkang Xi¹, JianPing Yin⁵, Wyne P. Lee¹, Peter Gribling¹, Kai H. Barck³, Richard A.D. Carano³, Robin E. Taylor⁴, Linda Rangell⁴, Lauri Diehl⁴, Philip E. Hass², Christian Wiesmann⁵, and Menno van Lookeren Campagne¹

¹ Department of Immunology, ² Department of Protein Chemistry, ³ Department of Tumor Biology and Angiogenesis, ⁴ Department of Pathology, and ⁵ Department of Protein Engineering, Genentech, Inc., San Francisco, CA 94080

CORRESPONDENCE Menno van Lookeren Campagne: menno{at}gene.com

Complement is an important component of the innate and adaptiveimmune response, yet complement split products generated throughactivation of each of the three complement pathways (classical,alternative, and lectin) can cause inflammation and tissue destruction.Previous studies have shown that complement activation throughthe alternative, but not classical, pathway is required to initiateantibody-induced arthritis in mice, but it is unclear if thealternative pathway (AP) plays a role in established disease.Previously, we have shown that human complement receptor ofthe immunoglobulin superfamily (CRIg) is a selective inhibitorof the AP of complement. Here, we present the crystal structureof murine CRIg and, using mutants, provide evidence that thestructural requirements for inhibition of the AP are conservedin human and mouse. A soluble form of CRIg reversed inflammationand bone loss in two experimental models of arthritis by inhibitingthe AP of complement in the joint. Our data indicate that theAP of complement is not only required for disease induction,but also disease progression. The extracellular domain of CRIgthus provides a novel tool to study the effects of inhibitingthe AP of complement in established disease and constitutesa promising therapeutic with selectivity for a single complementpathway.

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