20^th Global Obesity Meeting

Biography

Biography: Tatiana Iakovleva

Abstract

The energy-burning capacity of brown adipose tissue (BAT) makes it an attractive target for use in anti obesity therapies.  There are sex differences in the metabolic disorders development: high fat diet induces hyperglycemia development in males, but not in females.  Serum FGF21 levels are associated with BAT activity.  We investigated the effects of high fat and sugar diet (10 weeks) on blood levels of FGF21, insulin, leptine, glucose, on mRNA levels of genes involved in FGF21 signaling (Fgf21, Klotho beta, Pparg), and on mRNA levels of genes related to BAT activity (Ucp1, Slc2a1, Cpt1, Dio2, Hsl) in females and males of C57Bl mice.  We found that diet induced obesity, increased blod levels of FGF21, glucose and leptin in females and males and induced hyperinsulinemia development in males. We found also that diet impaired BAT FGF21 signaling only in males: increased mRNA level of Fgf21 and reduced mRNA levels of Klotho beta and Pparg.  Obviously due to impaired FGF21 signaling high blood FGF21 levels and increased BAT Fgf21 expression were associated with decreased expression of Slc2a1 and unaltered expression of Ucp1 genes in BAT of obese males.  In females, the diet did not affect FGF21 signaling.