Adrian Sprenger scite author profile

SummaryHealthy aging depends on removal of damaged cellular material that is in part mediated by autophagy. The nutritional status of cells affects both aging and autophagy through as-yet-elusive metabolic circuitries. Here, we show that nucleocytosolic acetyl-coenzyme A (AcCoA) production is a metabolic repressor of autophagy during aging in yeast. Blocking the mitochondrial route to AcCoA by deletion of the CoA-transferase ACH1 caused cytosolic accumulation of the AcCoA precursor acetate. This led to hyperactivation of nucleocytosolic AcCoA-synthetase Acs2p, triggering histone acetylation, repression of autophagy genes, and an age-dependent defect in autophagic flux, culminating in a reduced lifespan. Inhibition of nutrient signaling failed to restore, while simultaneous knockdown of ACS2 reinstated, autophagy and survival of ach1 mutant. Brain-specific knockdown of Drosophila AcCoA synthetase was sufficient to enhance autophagic protein clearance and prolong lifespan. Since AcCoA integrates various nutrition pathways, our findings may explain diet-dependent lifespan and autophagy regulation.

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Comparison of ERLIC–TiO₂, HILIC–TiO₂, and SCX–TiO₂ for Global Phosphoproteomics Approaches

Zarei

Sprenger

Metzger

et al. 2011

J. Proteome Res.

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Reversible phosphorylations play a critical role in most biological pathways. Hence, in signaling studies great effort has been put into identification of a maximum number of phosphosites per experiment. Mass spectrometry (MS)-based phosphoproteomics approaches have been proven to be an ideal analytical method for mapping of phosphosites. However, because of sample complexity, fractionation of phosphopeptides prior to MS analysis is a crucial step. In the current study, we compare the chromatographic strategies electrostatic repulsion-hydrophilic interaction chromatography (ERLIC), hydrophilic interaction liquid chromatography (HILIC), and strong cation exchange chromatography (SCX) for their fractionation behavior of phosphopeptides. In addition, we investigate the use of repetitive TiO(2)-based enrichment steps for a maximum identification of phosphopeptides. On the basis of our results, SCX yields the highest number of identified phosphopeptides, whereas ERLIC is optimal for the identification of multiphosphorylated peptides. Consecutive incubations of fractions and flow-through by TiO(2) beads enrich qualitatively different sets of phosphopeptides, increasing the number of identified phosphopeptides per analysis.

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Kidins220/ARMS binds to the B cell antigen receptor and regulates B cell development and activation

Fiala

Janowska

Prutek

et al. 2015

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Adrian Sprenger

Nucleocytosolic Depletion of the Energy Metabolite Acetyl-Coenzyme A Stimulates Autophagy and Prolongs Lifespan

Comparison of ERLIC–TiO₂, HILIC–TiO₂, and SCX–TiO₂ for Global Phosphoproteomics Approaches

Kidins220/ARMS binds to the B cell antigen receptor and regulates B cell development and activation

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Adrian Sprenger

Nucleocytosolic Depletion of the Energy Metabolite Acetyl-Coenzyme A Stimulates Autophagy and Prolongs Lifespan

Comparison of ERLIC–TiO2, HILIC–TiO2, and SCX–TiO2 for Global Phosphoproteomics Approaches

Kidins220/ARMS binds to the B cell antigen receptor and regulates B cell development and activation

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Comparison of ERLIC–TiO₂, HILIC–TiO₂, and SCX–TiO₂ for Global Phosphoproteomics Approaches