Cornelia Maas scite author profile

Cornelia Maas

2Publications

8Citation Statements Received

135Citation Statements Given

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122

Affiliations

TU Dresden, National Center for Genetic Engineering and Biotechnology

Publications

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Selective Phosphorylation of Akt/Protein-Kinase B Isoforms in Response to Dietary Cues

Trautenberg

Prince

Maas

et al. 2019

Front. Cell Dev. Biol.

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A calorie-rich diet is one reason for the continuous spread of metabolic syndromes in western societies. Smart food design is one powerful tool to prevent metabolic stress, and the search for suitable bioactive additives is a continuous task. The nutrient-sensing insulin pathway is an evolutionary conserved mechanism that plays an important role in metabolism, growth and development. Recently, lipid cues capable to stimulate insulin signaling were identified. However, the mechanistic base of their activity remains obscure to date. We show that specific Akt/Protein-kinase B isoforms are responsive to different calorie-rich diets, and potentiate the activity of the cellular insulin cascade. Our data add a new dimension to existing models and position Drosophila as a powerful tool to study the relation between dietary lipid cues and the insulin-induced cellular signal pathway.

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Selective phosphorylation of AKT isoforms in response to dietary cues

Trautenberg

Prince

Maas

et al. 2019

Preprint

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A calorie-rich diet is one reason for the continuous spread of metabolic syndromes in western societies. Smart food design is one powerful tool to prevent metabolic stress, and the search for suitable bioactive additives is a continuous task. The nutrient-sensing insulin signaling pathway is an evolutionary conserved mechanism that plays an important role in metabolism, growth and development. Recently, lipid cues capable to stimulate insulin signaling were identified. However, the mechanistic base of their activity remains obscure to date. Here, we show that specific AKT/ Protein kinase B isoforms are responsive to dietary lipid extract compositions and potentiate cellular insulin signaling levels. Our data add a new dimension to existing models and position Drosophila as a powerful model to study the relation between dietary lipid cues and the insulin induced cellular signal cascade.

show abstract

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Cornelia Maas

Selective Phosphorylation of Akt/Protein-Kinase B Isoforms in Response to Dietary Cues

Selective phosphorylation of AKT isoforms in response to dietary cues

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