期刊
JOURNAL OF HEPATOLOGY
卷 64, 期 4, 页码 860-871出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.jhep.2015.11.018
关键词
Systems biology; Spatio-temporal model; Ammonia; Liver damage; Liver regeneration
资金
- BMBF, Germany [FKZ0315739, FKZ0315735, FKZ031L0052]
Background & Aims: Recently, spatial-temporal/metabolic mathematical models have been established that allow the simulation of metabolic processes in tissues. We applied these models to decipher ammonia detoxification mechanisms in the liver. Methods: An integrated metabolic-spatial-temporal model was used to generate hypotheses of ammonia metabolism. Predicted mechanisms were validated using time-resolved analyses of nitrogen metabolism, activity analyses, immunostaining and gene expression after induction of liver damage in mice. Moreover, blood from the portal vein, liver vein and mixed venous blood was analyzed in a time dependent manner. Results: Modeling revealed an underestimation of ammonia consumption after liver damage when only the currently established mechanisms of ammonia detoxification were simulated. By iterative cycles of modeling and experiments, the reductive amidation of alpha-ketoglutarate (alpha-KG) via glutamate dehydrogenase (GDH) was identified as the lacking component. GDH is released from damaged hepatocytes into the blood where it consumes ammonia to generate glutamate, thereby providing systemic protection against hyperammonemia. This mechanism was exploited therapeutically in a mouse model of hyperammonemia by injecting GDH together with optimized doses of cofactors. Intravenous injection of GDH (720 U/kg), alpha-KG (280 mg/kg) and NADPH (180 mg/kg) reduced the elevated blood ammonia concentrations (>200 mu M) to levels close to normal within only 15 min. Conclusion: If successfully translated to patients the GDH-based therapy might provide a less aggressive therapeutic alternative for patients with severe hyperammonemia. (C) 2015 European Association for the Study of the Liver. Published by Elsevier B.V. All rights reserved.
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