Abstract
Hypothalamic melanocortin 4 receptors (MC4R) regulate energy balance. Mutations in the MC4R gene are the most common cause of monogenic obesity in humans. Fibroblast growth factor 21 (FGF21) is a promising antiobesity agent, but its effects on melanocortin obesity are unknown. Sex is an important biological variable that must be considered when conducting preclinical studies; however, in laboratory animal models, the pharmacological effects of FGF21 are well documented only for male mice. We aimed at investigating whether FGF21 affects metabolism in male and female mice with the lethal yellow (Ay) mutation, which results in MC4R blockage and obesity development. Obese C57Bl-Ay male and female mice were administered subcutaneously for 10 days with vehicle or FGF21 (1 mg per 1 kg). Food intake (FI), body weight (BW), blood parameters, and gene expression in the liver, muscles, brown adipose tissue, subcutaneous and visceral white adipose tissues, and hypothalamus were measured. FGF21 action strongly depended on the sex of the animals. In the males, FGF21 decreased BW and insulin blood levels without affecting FI. In the females, FGF21 increased FI and liver weight, but did not affect BW. In control Ay-mice, expression of genes involved in lipid and glucose metabolism (Ppargc1a, Cpt1, Pck1, G6p, Slc2a2) in the liver and genes involved in lipogenesis (Pparg, Lpl, Slc2a4) in visceral adipose tissue was higher in females than in males, and FGF21 administration inhibited the expression of these genes in females. FGF21 administration decreased hypothalamic POMC mRNA only in males. Thus, the pharmacological effect of FGF21 were significantly different in male and female Ay-mice; unlike males, females were resistant to catabolic effects of FGF21.
Highlights
Obesity is a serious problem in modern society, this being the reason why various methods of combating obesity are under intensive investigation
Fibroblast growth factor 21 (FGF21) administration significantly decreased plasma insulin in male mice. Both male and female mice tended to respond to FGF21 admini stration by decreased plasma levels of free fatty acids (FFA) (Table 2)
FGF21 contributed to weight loss, and significant differences in body weight (BW) between male mice treated with PBS and FGF21 were observed from day 5 of the experiment
Summary
Obesity is a serious problem in modern society, this being the reason why various methods of combating obesity (medicinal, non-medicinal, preventive, etc.) are under intensive investigation. Melanocortin (MC) obesity, caused by mutations in the melanocortin system of the brain, is the most common genetic form of obesity in humans (Farooqi et al, 2003; Girardet, Butler, 2014). Melanocortin system regulates energy intake and expenditure. Activation of type 4 melanocortin receptors (MC4R) in the hypothalamic neurons reduces food consumption and increases energy expenditure, while their blockade or loss (knockout) is associated with hyperphagia, gradual development of obesity, and insulin resistance (Tao, 2010). The loss of MC4R functions causes severe obesity (Farooqi et al, 2003), but intensive search for therapeutic options of MC obesity correction has yet not identified an efficient drug (Fani et al, 2014)
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