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Volume 8

Journal of Obesity & Weight Loss Therapy

Obesity Meeting 2018

August 24-25, 2018

August 24-25, 2018 Singapore

20

th

Global Obesity Meeting

Elena Makarova et al., J Obes Weight Loss Ther 2018, Volume 8

DOI: 10.4172/2165-7904-C6-072

Sex-specific changes of gene expression in response to obesity are associated with different FGF21

expression in obese male and female mice

Elena Makarova, Denisova E, Dubinina A, Feofanova N, Yakovleva T and Bazhan N

Institute of Cytology and Genetics, Russia

P

ropensity to develop obesity-related metabolic complications is higher in males than in females. The liver-derived hormone

FGF21 improves obesity-induced metabolic abnormalities. It is unknown if FGF21 is involved in sex-specific metabolic

response to obesity. We studied expression of FGF21 and the genes, which are under its control (PPARg, CPT1, UCP1 and

UCP3) or mediate its signaling (KLB) in fat tissues, muscles and liver of obese male and female C57BLmice.The gene expression

response to obesity was sex and tissue-specific. The blood FGF21 concentrations and gene expression of FGF21 in liver and

Brown Adipose Tissue (BAT) and CPT1 in the subcutaneous white adipose tissue were elevated in obese mice and were much

higher in males than in females. Elevation of FGF21 in males was associated with inhibited CPT1B and UCP3 expression in

muscles and inhibited KLB and PPARg expression in BAT, which was not observed in females. These changes indicate the

development of resistance to FGF21 in muscles and BAT of males. The results suggest that sex-specific FGF21 expression in

obese animals may contribute to the sex differences in fat accumulation and resistance to FGF21 in some tissues may be a

reason of more male vulnerability to obesity complications. This study was supported by the Russian Science Foundation, grant

No 17-15-01036.

Biography

Elena Makarova is currently a Senior Researcher in the Laboratory of Physiological Genetics in the Institute of Cytology and Genetics, Novosibirsk, Russia. Her

researches focus on the studies of sex-specific influence of maternal leptin on metabolic characteristics in progeny of rodents. She along with her colleagues found

maternal leptin retarded obesity development in male progeny of mice.

enmakarova@gmail.com