Human FGF-21 Is a Substrate of Fibroblast Activation Protein |
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Authors: | Andrew L. Coppage Kathryn R. Heard Matthew T. DiMare Yuxin Liu Wengen Wu Jack H. Lai William W. Bachovchin |
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Affiliation: | 1. Department of Developmental, Molecular and Chemical Biology, Tufts University Sackler School of Graduate Biomedical Sciences, Boston, Massachusetts, United States of America;2. Arisaph Pharmaceuticals Inc., Boston, Massachusetts, United States of America;University of Barcelona, Faculty of Biology, SPAIN |
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Abstract: | FGF-21 is a key regulator of metabolism and potential drug candidate for the treatment of type II diabetes and other metabolic disorders. However, the half-life of active, circulating, human FGF-21 has recently been shown to be limited in mice and monkeys by a proteolytic cleavage between P171 and S172. Here, we show that fibroblast activation protein is the enzyme responsible for this proteolysis by demonstrating that purified FAP cleaves human FGF-21 at this site in vitro, and that an FAP-specific inhibitor, ARI-3099, blocks the activity in mouse, monkey and human plasma and prolongs the half-life of circulating human FGF-21 in mice. Mouse FGF-21, however, lacks the FAP cleavage site and is not cleaved by FAP. These findings indicate FAP may function in the regulation of metabolism and that FAP inhibitors may prove useful in the treatment of diabetes and metabolic disorders in humans, but pre-clinical proof of concept studies in rodents will be problematic. |
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