Literature DB >> 14512626

Inactivation of TNF signaling by rationally designed dominant-negative TNF variants.

Paul M Steed1, Malú G Tansey, Jonathan Zalevsky, Eugene A Zhukovsky, John R Desjarlais, David E Szymkowski, Christina Abbott, David Carmichael, Cheryl Chan, Lisa Cherry, Peter Cheung, Arthur J Chirino, Hyo H Chung, Stephen K Doberstein, Araz Eivazi, Anton V Filikov, Sarah X Gao, René S Hubert, Marian Hwang, Linus Hyun, Sandhya Kashi, Alice Kim, Esther Kim, James Kung, Sabrina P Martinez, Umesh S Muchhal, Duc-Hanh T Nguyen, Christopher O'Brien, Donald O'Keefe, Karen Singer, Omid Vafa, Jost Vielmetter, Sean C Yoder, Bassil I Dahiyat.   

Abstract

Tumor necrosis factor (TNF) is a key regulator of inflammatory responses and has been implicated in many pathological conditions. We used structure-based design to engineer variant TNF proteins that rapidly form heterotrimers with native TNF to give complexes that neither bind to nor stimulate signaling through TNF receptors. Thus, TNF is inactivated by sequestration. Dominant-negative TNFs represent a possible approach to anti-inflammatory biotherapeutics, and experiments in animal models show that the strategy can attenuate TNF-mediated pathology. Similar rational design could be used to engineer inhibitors of additional TNF superfamily cytokines as well as other multimeric ligands.

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Year:  2003        PMID: 14512626     DOI: 10.1126/science.1081297

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  81 in total

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