A dynamic multi-tissue model to study human metabolism

A dynamic multi-tissue model to study human metabolism

Metabolic modeling enables the study of human metabolism in healthy and in diseased conditions, e.g., the prediction of new drug targets and biomarkers for metabolic diseases. To accurately describe blood and urine metabolite dynamics, the integration of multiple metabolically active tissues is nece...

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Bibliographic Details
Main Authors: Martins Conde, P. (Author), Pfau, T. (Author), Pires Pacheco, M. (Author), Sauter, T. (Author)
Format: Article
Language:English
Published: Nature Research 2021
Subjects:
antibody specificity
biological marker
biological model
biology
Biomarkers
blood
Computational Biology
computer simulation
Computer Simulation
genetics
human
Humans
metabolomics
Metabolomics
Models, Biological
Organ Specificity
physiology
procedures
systems biology
Systems Biology
urine
Online Access:View Fulltext in Publisher
Description
Summary:Metabolic modeling enables the study of human metabolism in healthy and in diseased conditions, e.g., the prediction of new drug targets and biomarkers for metabolic diseases. To accurately describe blood and urine metabolite dynamics, the integration of multiple metabolically active tissues is necessary. We developed a dynamic multi-tissue model, which recapitulates key properties of human metabolism at the molecular and physiological level based on the integration of transcriptomics data. It enables the simulation of the dynamics of intra-cellular and extra-cellular metabolites at the genome scale. The predictive capacity of the model is shown through the accurate simulation of different healthy conditions (i.e., during fasting, while consuming meals or during exercise), and the prediction of biomarkers for a set of Inborn Errors of Metabolism with a precision of 83%. This novel approach is useful to prioritize new biomarkers for many metabolic diseases, as well as for the integration of various types of personal omics data, towards the personalized analysis of blood and urine metabolites. © 2021, The Author(s).
ISBN:20567189 (ISSN)
DOI:10.1038/s41540-020-00159-1

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