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Adipose-specific ablation of Nrf2 transiently delayed high-fat diet-induced obesity by altering glucose, lipid and energy metabolism of male mice.


ABSTRACT: Nuclear factor E2-related factor 2 (NRF2) is a well-known master controller of the cellular adaptive antioxidant and detoxification response. Recent studies demonstrated altered glucose, lipid and energy metabolism in mice with a global Nrf2 knockout. In the present study, we aim to determine the effects of an adipose-specific ablation of Nrf2 (ASAN) on diet-induced obesity (DIO) in male mice. The 6-week-old adipose-specific Nrf2 knockout (NK) and its Nrf2 control (NC) mice were fed with either control diet (CD) or high-fat diet (HFD) for 14 weeks. NK mice exhibited transiently delayed body weight (BW) growth from week 5 to week 11 of HFD feeding, higher daily physical activity levels and preferential use of fat over carbohydrates as a source of energy at week 8 of the CD-feeding period. After 14 weeks of feeding, NK mice showed comparable results with NC mice with respect to the overall BW and body fat content, but exhibited reduced blood glucose, reduced number but increased size of adipocytes, accompanied with elevated expression of many genes and proteins in the visceral fat related to glucose, lipid and energy metabolism (e.g. Fgf21, Pgc1a). These results indicated that NRF2 is an important mediator for glucose, lipid and energy metabolism in adipose tissue, and ASAN could have beneficial effect for prevention of DIO during the early development of mice.

SUBMITTER: Zhang L 

PROVIDER: S-EPMC5209484 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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Adipose-specific ablation of <i>Nrf2</i> transiently delayed high-fat diet-induced obesity by altering glucose, lipid and energy metabolism of male mice.

Zhang Le L   Dasuri Kalavathi K   Fernandez-Kim Sun-Ok SO   Bruce-Keller Annadora J AJ   Keller Jeffrey N JN  

American journal of translational research 20161215 12


Nuclear factor E2-related factor 2 (NRF2) is a well-known master controller of the cellular adaptive antioxidant and detoxification response. Recent studies demonstrated altered glucose, lipid and energy metabolism in mice with a global <i>Nrf2</i> knockout. In the present study, we aim to determine the effects of an adipose-specific ablation of <i>Nrf2</i> (ASAN) on diet-induced obesity (DIO) in male mice. The 6-week-old adipose-specific <i>Nrf2</i> knockout (NK) and its <i>Nrf2</i> control (NC  ...[more]

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