Development of Zalfermin, a Long-Acting Proteolytically Stabilized FGF21 Analog.

Here, we describe the development of the FGF21 analog zalfermin (NNC0194-0499, 15), intended for once-weekly sc dosing. Protein engineering was needed to address inherent druggability issues of the natural FGF21 hormone. Thus, deamidation of Asp121 was solved by mutation to glutamine, and oxidation of Met168 was solved by mutation to leucine. N-terminal region degradation by dipeptidyl peptidase IV was prevented by alanine residue elongation. To prevent inactivating metabolism by fibroblast activation protein and carboxypeptidase-like activity in the C-terminal region, and to achieve t1/2 extension (53 h in cynomolgus monkeys), we introduced a C18 fatty diacid at the penultimate position 180. The fatty diacid binds albumin in a reversible manner, such that the free fraction of zalfermin potently activates the FGF-receptor complex and retains receptor selectivity compared with FGF21, providing strong efficacy on body weight loss in diet-induced obese mice. Zalfermin is currently being clinically evaluated for the treatment of metabolic dysfunction-associated steatohepatitis.

FGF21 decreases food intake and body weight in obese Göttingen minipigs.

AIMS: The aim of this study was to assess the effect of FGF21 on food intake, body weight, body composition, glucose homeostasis, bone mineral density (BMD), cortisol and growth hormone (GH) in obese minipigs. The pig is a unique model for studying FGF21 pharmacology as it does not express UCP1, unlike mice and humans. METHODS: Twelve obese Göttingen minipigs with a mean body weight of 91.6 ± 6.7 kg (mean ± SD) received subcutaneously either vehicle (n = 6) or recombinant human FGF21 (n = 6) once daily for 14 weeks (0.1 mg/kg for 9.5 weeks and 0.3 mg/kg for 4.5 weeks). RESULTS: Treatment of obese minipigs with FGF21 led to a 50% reduction in food intake and a body weight loss of, on average, 18 kg compared to the vehicle group after 14 weeks of dosing. Glucose tolerance and insulin sensitivity, evaluated by intravenous glucose tolerance test, were significantly improved in the FGF21 group compared to the vehicle group at the end of the study. The plasma cortisol profile was unaffected by FGF21, whereas a small decrease in peak GH values was observed in the FGF21-treated animals after 7 to 9.5 weeks of treatment compared to the vehicle group. Whole-body BMD was not affected by 13 weeks of FGF21 dosing. CONCLUSION: Despite a lack of UCP-1 in obese minipigs, FGF21 treatment induced a significant weight loss, primarily a result of reduction in food intake, with no adverse effect on BMD or plasma cortisol.

Differential receptor selectivity of the FGF15/FGF19 orthologues determines distinct metabolic activities in db/db mice.

Fibroblast growth factors (FGF) 19, 21 and 23 are characterized by being endocrinely secreted and require co-receptor α-klotho or ß-klotho (BKL) for binding and activation of the FGF receptors (FGFR). FGF15 is the rodent orthologue of human FGF19, but the two proteins share only 52% amino acid identity. Despite the physiological role of FGF21 and FGF19 being quite different, both lower blood glucose (BG) when administered to diabetic mice. The present study was designed to clarify why two human proteins with distinct physiological functions both lower BG in db/db mice and if the mouse orthologue FGF15 has similar effect to FGF19 and FGF21. Recombinant human FGF19, -21 and a mouse FGF15 variant (C110S) were expressed and purified from Escherichia coli While rhFGF19 (recombinant human fibroblast growth factor 19) and rhFGF21 (recombinant human fibroblast growth factor) bound FGFRs in complex with both human and mouse BKL, rmFGF15CS (recombinant mouse fibroblast growth factor 15 C110S) only bound the FGFRs when combined with mouse BKL. Recombinant hFGF21 and rhFGF19, but not rmFGF15CS, increased glucose uptake in mouse adipocytes, while rhFGF19 and rmFGF15CS potently decreased Cyp7a1 expression in rat hepatocytes. The lack of effect of rmFGF15CS on glucose uptake in adipocytes was associated with rmFGF15CS's inability to signal through the FGFR1c/mouse BKL complex. In db/db mice, only rhFGF19 and rhFGF21 decreased BG while rmFGF15CS and rhFGF19, but not rhFGF21, increased total cholesterol. These data demonstrate receptor- and species-specific differential activity of FGF15 and FGF19 which should be taken into consideration when FGF19 is used as a substitute for FGF15.