Model of tryptophan metabolism, readily scalable using tissue-specific gene expression data.


Tryptophan is utilized in various metabolic routes including protein synthesis, serotonin, and melatonin synthesis and the kynurenine pathway. Perturbations in these pathways have been associated with neurodegenerative diseases and cancer. Here we present a comprehensive kinetic model of the complex network of human tryptophan metabolism based upon existing kinetic data for all enzymatic conversions and transporters. By integrating tissue-specific expression data, modeling tryptophan metabolism in liver and brain returned intermediate metabolite concentrations in the physiological range. Sensitivity and metabolic control analyses identified expected key enzymes to govern fluxes in the branches of the network. Combining tissue-specific models revealed a considerable impact of the kynurenine pathway in liver on the concentrations of neuroactive derivatives in the brain. Moreover, using expression data from a cancer study predicted metabolite changes that resembled the experimental observations. We conclude that the combination of the kinetic model with expression data represents a powerful diagnostic tool to predict alterations in tryptophan metabolism. The model is readily scalable to include more tissues, thereby enabling assessment of organismal tryptophan metabolism in health and disease.


PubMed ID: 24129579

Projects: MESI-STRAT

Publication type: Journal

Journal: J Biol Chem

Citation: J Biol Chem. 2013 Nov 29;288(48):34555-66. doi: 10.1074/jbc.M113.474908. Epub 2013 Oct 15.

Date Published: 29th Nov 2013

Registered Mode: Not specified

Authors: A. K. Stavrum, I. Heiland, S. Schuster, P. Puntervoll, M. Ziegler

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Views: 3176

Created: 28th Mar 2018 at 23:22

Last updated: 28th Jul 2020 at 18:40

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