Explanation for CNS changes seen in hyperammonemia!
High levels of ammonia 5-10 fold higher than normal induces metabolic changes with alteration in the function of central nervous system. High ammonia levels leads to increased extracellular concentration of glutamate in the brain and results in activation of the N -methyl D-aspartate (NMDA) receptor. Activation of this receptor mediates ATP depletion and ammonia toxicity; Activation of NMDA receptors is believed to be responsible for seizures seen in hyperammonemia.
Hyperammonemia leads to downregulation of glutamate receptors secondary to excessive extrasynaptic accumulation of glutamate. In addition, changes in the glutamate-nitric oxide-cGMP pathway result in impairment of signal transduction associated with NMDA receptors, leading to alteration in cognition and learning. There is also increased GABAergic tone resulting from benzodiazepine receptor overstimulation by endogenous benzodiazepines and neurosteroids. These changes probably contribute to deterioration of intellectual function, decreased consciousness, and coma.
Ammonia also increases the transport of aromatic amino acids (eg, tryptophan) across the blood-brain barrier. This leads to an increase in the level of serotonin, which is the basis for anorexia in hyperammonemia.
Other metabolic changes that are not mediated by activation of the NMDA receptor and thus are not involved directly in ammonia-induced ATP depletion or neurotoxicity. These include increases in brain levels of lactate, pyruvate, glutamine, and free glucose, and decreases in brain levels of glycogen, ketone bodies, and glutamate.
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