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Review
. 2015 Dec;161(2):225-40.
doi: 10.1016/j.clim.2015.08.009. Epub 2015 Sep 1.

Applying complement therapeutics to rare diseases

Edimara S Reis  1 Dimitrios C Mastellos  2 Despina Yancopoulou  3 Antonio M Risitano  4 Daniel Ricklin  1 John D Lambris  5
Affiliations
Review

Applying complement therapeutics to rare diseases

Edimara S Reis et al. Clin Immunol. 2015 Dec.

Abstract

Around 350 million people worldwide suffer from rare diseases. These may have a genetic, infectious, or autoimmune basis, and several include an inflammatory component. Launching of effective treatments can be very challenging when there is a low disease prevalence and limited scientific insights into the disease mechanisms. As a key trigger of inflammatory processes, complement has been associated with a variety of diseases and has become an attractive therapeutic target for conditions involving inflammation. In view of the clinical experience acquired with drugs licensed for the treatment of rare diseases such as hereditary angioedema and paroxysmal nocturnal hemoglobinuria, growing evidence supports the safety and efficacy of complement therapeutics in restoring immune balance and preventing aggravation of clinical outcomes. This review provides an overview of the candidates currently in the pharmaceutical pipeline with potential to treat orphan diseases and discusses the molecular mechanisms triggered by complement involved with the disease pathogenesis.

Keywords: Autoimmune diseases; C1 inhibitor; Complement; Compstatin; Eculizumab; Orphan drugs; Rare diseases.

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Conflict of interest statement

Declaration of Interest

JD Lambris and D Ricklin are inventors of patent applications that describe the use of complement inhibitors for therapeutic purposes. JD Lambris is the founder of Amyndas Pharmaceuticals, which is developing complement inhibitors. AM Risitano received research funding from Alexion Pharmaceuticals, Amyndas Pharmaceuticals, Alnylam Pharmaceuticals, Rapharma and Novartis and is a consultant for Alnylam and RA Pharma. The other authors declare no financial interest or conflict.

Figures

Figure 1
Figure 1
Complement acts as a key mediator of several pathophysiological processes.
Figure 2
Figure 2
Simplified scheme of the complement cascade. In blue: proteins of the classical and lectins pathways; green: convertases of the classical and lectins pathways; orange: proteins of the alternative pathway; purple: convertases of the alternative pathway; red: proteins common to all the pathways; gray: soluble regulators. Complement cell receptors are depicted at the surface of the host cell. Red symbols: points of therapeutic interventions in rare diseases. Abbreviations: C1INH-C1 inhibitor, C4BP-C4b binding protein, CR-complement receptor, DAF-decay accelerating factor, FB-factor B, FD-factor D, FH-factor H, FI-factor I, MAC-membrane attack complex, MBL-mannose binding lectin, MCP-membrane cofactor protein. *ALN-CC5 inhibits C5 expression.
Figure 3
Figure 3
Impact of drug candidates on complement-mediated functions. Abbreviations: AP-alternative pathway, CP-classical pathway, C5aR-C5a receptor 1, C1-INH-C1 inhibitor, FD-factor D, FH-factor H, LP-lectin pathway, MAC-membrane attack complex, MASP-2-mannose binding lectin. Dotted lines indicate impact in the complement functions downstream of C3 due to less generation of C3b. Full lines indicate impact on C5-mediated functions due to inhibited amplification loop.
See this image and copyright information in PMC

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