Your search keyword '"INSULIN-RECEPTOR"' showing total 2 results

1. Tryptophan metabolism

Subjects

protein homeostasis, T-CELL PROLIFERATION, aging, neurodegeneration, TUMORAL IMMUNE RESISTANCE, INSULIN-RECEPTOR, 3-DIOXYGENASE ACTIVITY, age-related diseases, TDO-2, HUNTINGTONS-DISEASE, C-ELEGANS, tryptophan, LIFE-SPAN EXTENSION, CAENORHABDITIS-ELEGANS, DIETARY RESTRICTION, INDOLEAMINE 2, GENETICALLY HETEROGENEOUS MICE, kynurenine pathway

Abstract

Aging is an important risk factor for many debilitating diseases, including cancer and neurodegeneration. In model organisms, interfering with metabolic signaling pathways, including the insulin/insulin-like growth factor (IGF) 1 (IIS) and TOR pathways, can protect against age-related pathologies and increase lifespan. Recent studies in multiple organisms have implicated tryptophan metabolism as a powerful regulator of age-related diseases and lifespan. Its high conservation throughout evolution has enabled studies that begin to dissect the contribution of individual enzymes and metabolites. Here, we focus on the emerging view of tryptophan metabolism as a pathway that integrates environmental and metabolic signals to regulate animal biology and health.

Published

2013

2. Tryptophan metabolism

Author

Annemieke T. van der Goot and Ellen A. A. Nollen

Subjects

Kynurenine pathway, medicine.medical_treatment, ved/biology.organism_classification_rank.species, Regulator, Biology, 03 medical and health sciences, 0302 clinical medicine, age-related diseases, medicine, Animals, Humans, tryptophan, LIFE-SPAN EXTENSION, Model organism, DIETARY RESTRICTION, Molecular Biology, INDOLEAMINE 2, 030304 developmental biology, Genetics, protein homeostasis, 0303 health sciences, T-CELL PROLIFERATION, ved/biology, Insulin, Growth factor, Neurodegeneration, aging, neurodegeneration, TUMORAL IMMUNE RESISTANCE, INSULIN-RECEPTOR, medicine.disease, 3-DIOXYGENASE ACTIVITY, Cell biology, Insulin receptor, TDO-2, HUNTINGTONS-DISEASE, biology.protein, C-ELEGANS, Molecular Medicine, Signal transduction, CAENORHABDITIS-ELEGANS, 030217 neurology & neurosurgery, GENETICALLY HETEROGENEOUS MICE, Signal Transduction, kynurenine pathway

Abstract

Aging is an important risk factor for many debilitating diseases, including cancer and neurodegeneration. In model organisms, interfering with metabolic signaling pathways, including the insulin/insulin-like growth factor (IGF) 1 (IIS) and TOR pathways, can protect against age-related pathologies and increase lifespan. Recent studies in multiple organisms have implicated tryptophan metabolism as a powerful regulator of age-related diseases and lifespan. Its high conservation throughout evolution has enabled studies that begin to dissect the contribution of individual enzymes and metabolites. Here, we focus on the emerging view of tryptophan metabolism as a pathway that integrates environmental and metabolic signals to regulate animal biology and health.

Published

2013