Claudia Moser 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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Randomised controlled trial with medical leeches for osteoarthritis of the knee

Stange

Moser

Hopfenmueller

et al. 2012

Complementary Therapies in Medicine

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Reorganization of hair follicles in human skin organ culture induced by cultured human follicle‐derived cells

Krugluger¹,

Rohrbacher²,

Laciak³

et al. 2005

Experimental Dermatology

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Studies of human hair follicle (HF) induction by follicle-derived cells have been limited due to a lack of suitable test systems. In this study, we established a skin organ culture system which supports HF formation by follicle-derived cells. Long-term skin organ cultures were set up from human retroauricular skin specimens and maintained in culture for up to 8 weeks. In vitro expanded human HF-derived cells from the dermal papilla (DP) and the outer root sheath (ORS) were injected together into the skin specimens and evaluated for their ability to induce reorganization of HFs. Macroscopic analysis of the cultured skin specimens demonstrated the growth of velus-like hair after 4 weeks in culture. Histologic evaluation of the cultured skin specimens after 8 weeks of culture revealed multiple miniaturized HFs with sebaceous glands. In addition, cell clusters of various differentiation stages could be demonstrated in serial sections of the cultured skin specimens. Labeling of HF-derived cells with the fluorescence dye CFDA-1 prior to injection suggested a de novo reorganization of HFs out of the injected cells. In conclusion, the study demonstrated HF formation by HF-derived cells in an in vitro skin organ culture model.

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11.3 Autologous conditioned serum (ACS) compared to hyaluronan and saline-injections for the treatment of knee osteoarthritis: therapeutic study, level I (ISRCTN: 71311752)

Moser¹,

Baltzer²,

Jansen³

et al. 2007

Osteoarthritis and Cartilage

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Enhancement of In Vitro Hair Shaft Elongation in Follicles Stored in Buffers That Prevent Follicle Cell Apoptosis

Krugluger¹,

Moser²,

Moser³

et al. 2004

Dermatologic Surgery

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Claudia Moser

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

Randomised controlled trial with medical leeches for osteoarthritis of the knee

Reorganization of hair follicles in human skin organ culture induced by cultured human follicle‐derived cells

11.3 Autologous conditioned serum (ACS) compared to hyaluronan and saline-injections for the treatment of knee osteoarthritis: therapeutic study, level I (ISRCTN: 71311752)

Enhancement of In Vitro Hair Shaft Elongation in Follicles Stored in Buffers That Prevent Follicle Cell Apoptosis

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