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  • E2F/Dp inactivation in fat body cells triggers systemic metabolic changes.

E2F/Dp inactivation in fat body cells triggers systemic metabolic changes.

eLife (2021-07-13)
Maria Paula Zappia, Ana Guarner, Nadia Kellie-Smith, Alice Rogers, Robert Morris, Brandon Nicolay, Myriam Boukhali, Wilhelm Haas, Nicholas J Dyson, Maxim V Frolov
ABSTRACT

The E2F transcription factors play a critical role in controlling cell fate. In Drosophila, the inactivation of E2F in either muscle or fat body results in lethality, suggesting an essential function for E2F in these tissues. However, the cellular and organismal consequences of inactivating E2F in these tissues are not fully understood. Here, we show that the E2F loss exerts both tissue-intrinsic and systemic effects. The proteomic profiling of E2F-deficient muscle and fat body revealed that E2F regulates carbohydrate metabolism, a conclusion further supported by metabolomic profiling. Intriguingly, animals with E2F-deficient fat body had a lower level of circulating trehalose and reduced storage of fat. Strikingly, a sugar supplement was sufficient to restore both trehalose and fat levels, and subsequently rescued animal lethality. Collectively, our data highlight the unexpected complexity of E2F mutant phenotype, which is a result of combining both tissue-specific and systemic changes that contribute to animal development.

MATERIALS
Product Number
Brand
Product Description

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