Synopses & Reviews
Although the complement system is a vital part of the body's defenses against bacteria, its inappropriate activation produces the cell damage found in a wide variety of illnesses, ranging from hemolytic anemia to multiple sclerosis. In Therapeutic Interventions in the Complement System, a team of expert investigators and researchers comprehensively review complement's basic biology, its role in disease, methods to measure its activity, and strategies for its inhibition in patients. Each chapter focuses on a specific area of basic and applied complement biology, detailing the activation pathways and complement receptors. Informative animal models are thoroughly discussed, including the relative values of each model and the important interspecies differences that can distort the interpretation of preclinical studies. Also discussed are analytical issues concerning the sensitivity and specificity of the important new ELISA assays for measuring complement. Throughout, the emphasis is on the pros and cons of the use of recombinant complement inhibitors as therapeutics in specific diseases. Cutting-edge and innovative, Therapeutic Interventions in the Complement System highlights for clinical researchers and biotechnologists the powerful drug discovery and development strategies that are producing the novel complement inhibitors today emerging for the treatment of a wide variety of clinically important diseases.
Synopsis
Reviews complement's basic biology, its role in disease, methods to measure its activity, and strategies for its inhibition in cases where its inappropriate activation produces cell damage. Each chapter focuses on a specific area of basic and applied complement biology, spelling out activation pathways and complement receptors. Animal models are discussed in detail, including values of each model and important interspecies differences. Emphasis is on pros and cons of the use of recombinant complement inhibitors in specific diseases.
Synopsis
A team of expert investigators and clinical researchers comprehensively review complement's basic biology, its role in disease, methods to measure its activity, and strategies for its inhibition in patients. Each chapter focuses on a specific area of basic and applied complement biology, spelling out the activation pathways and complement receptors. Informative animal models are discussed in detail, including the relative values of each model and the important interspecies differences that can distort the interpretation of preclinical studies. The emphasis throughout is on the pros and cons of the therapeutic use of recombinant complement inhibitors in specific diseases. Cutting-edge and innovative, Therapeutic Interventions in the Complement System highlights for today's researcher and biotechnologist effective strategies of drug discovery and development that are producing valuable new complement inhibitors for the treatment of a wide variety of clinically important diseases.
Table of Contents
Complement as a Regulatory and Effector Pathway in Human Diseases, V. Michael Holers. The Regulation of C1 Activation and its Role in Disease, C. Erik Hack. Inhibition of Complement Serine Proteases as a Therapeutic Strategy, Sthanam V.L. Narayana, Y. Sudhakara Babu, and John E. Volanakis. Complement Inhibitors Targeting C3, C4, and C5, Arvind Sahu, Dimitrios Morikis, and John D. Lambris. Complement Anaphylatoxins (C3a, C4a, C5a) and Their Receptors (C3aR, C5aR/CD88) as Therapeutic Targets in Inflammation, Rick A. Wetsel, Jens Kildsgaard, and David L. Haviland. Modulation of Disease Using Recombinant Human Endogenous Complement Inhibitors, Richard J. Quigg. Roles of the Integrins CR3 and CR4 in Disease and Therapeutic Strategies, Yu Xia and Gordon D. Ross. Inhibition of Complement at the Membrane Attack Pathway, B. Paul Morgan. Evaluation of Complement Inhibitors, Patricia C. Giclas. Use of Animal Models to Define Complement Functions, Peter A. Ward, Boris J. Czermak, Markus Huber-Lang, Katherine Diehl, and Hans P. Friedl.