Kirsten Lykkegaard scite author profile

The availability of useful animal models reflecting the human obesity syndrome is crucial in the search for novel compounds for the pharmacological treatment of obesity. In the current study, we have performed an extensive characterization of the obesity syndrome in a polygenetic animal model, namely the selectively bred diet-induced obese (DIO) and diet-resistant (DR) rat strains. We show that they constitute useful models of the human obesity syndrome. DIO and DR rats were fed either a high-energy (HE) or a standard chow (Chow) diet from weaning to 9 months of age. Metabolic characterization including blood biochemistry and glucose homeostasis was examined at 2, 3, 6, and 9 months of age. Furthermore, in 6-month-old HE-fed DIO rats, the anti-obesity effects of liraglutide and sibutramine were examined in a 28-day study. Only HE-fed DIO rats developed visceral obesity, hyperleptinemia, hyperinsulinemia, and dyslipidemia, and showed a worsening of glucose tolerance over time. In line with the hyperlipidemic profile, a severe hepatic fat infiltration was observed in DIO rats at 6 months of age. The effects of liraglutide and sibutramine were tested in 6-month-old DIO rats. Both compounds effectively reduced food intake and body weight in DIO rats. Liraglutide furthermore improved glucose tolerance when compared with sibutramine. Our data highlights the usefulness of a polygenetic animal model for screening of compounds affecting food intake, body weight, and glucose homeostasis. Furthermore, the results underscore the effectiveness of GLP-1 mimetics both as anti-diabetes and anti-obesity agents.

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Local anaesthetics attenuates spinal nociception and HPA-axis activation during experimental laparotomy in pigs

Lykkegaard

Lauritzen

Tessem

et al. 2005

Research in Veterinary Science

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The once-daily human GLP-1 analog, liraglutide, reduces olanzapine-induced weight gain and glucose intolerance

Lykkegaard

Larsen

Vrang

et al. 2008

Schizophrenia Research

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

Hansen

Vienberg

Lykkegaard

et al. 2018

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Fibroblast growth factors (FGF) 19, 21 and 23 are characterized by being endocrinely secreted and require co-receptor α-klotho or β-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 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 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 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 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.

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