Treating diabetes and obesity with an FGF21-mimetic antibody activating the βKlotho/FGFR1c receptor complex

IN Foltz, S Hu, C King, X Wu, C Yang, W Wang… - Science translational …, 2012 - science.org
IN Foltz, S Hu, C King, X Wu, C Yang, W Wang, J Weiszmann, J Stevens, JS Chen…
Science translational medicine, 2012science.org
Fibroblast growth factor 21 (FGF21) is a distinctive member of the FGF family with potent
beneficial effects on lipid, body weight, and glucose metabolism and has attracted
considerable interest as a potential therapeutic for treating diabetes and obesity. As an
alternative to native FGF21, we have developed a monoclonal antibody, mimAb1, that binds
to βKlotho with high affinity and specifically activates signaling from the βKlotho/FGFR1c
(FGF receptor 1c) receptor complex. In obese cynomolgus monkeys, injection of mimAb1 led …
Fibroblast growth factor 21 (FGF21) is a distinctive member of the FGF family with potent beneficial effects on lipid, body weight, and glucose metabolism and has attracted considerable interest as a potential therapeutic for treating diabetes and obesity. As an alternative to native FGF21, we have developed a monoclonal antibody, mimAb1, that binds to βKlotho with high affinity and specifically activates signaling from the βKlotho/FGFR1c (FGF receptor 1c) receptor complex. In obese cynomolgus monkeys, injection of mimAb1 led to FGF21-like metabolic effects, including decreases in body weight, plasma insulin, triglycerides, and glucose during tolerance testing. Mice with adipose-selective FGFR1 knockout were refractory to FGF21-induced improvements in glucose metabolism and body weight. These results in obese monkeys (with mimAb1) and in FGFR1 knockout mice (with FGF21) demonstrated the essential role of FGFR1c in FGF21 function and suggest fat as a critical target tissue for the cytokine and antibody. Because mimAb1 depends on βKlotho to activate FGFR1c, it is not expected to induce side effects caused by activating FGFR1c alone. The unexpected finding of an antibody that can activate FGF21-like signaling through cell surface receptors provided preclinical validation for an innovative therapeutic approach to diabetes and obesity.
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