Novel aspects of glutamine synthetase in ammonia homeostasis

Abstract

Elevated blood ammonia (hyperammonemia) is believed to be a major contributor to the neurological sequelae following severe liver disease. Ammonia is cleared via two main mechanisms, the urea cycle pathway and the glutamine synthetase reaction. Recent studies of genetically modified animals confirm the importance of the urea cycle, but also suggest that the glutamine synthetase reaction is more important than previously recognized. While the liver clears about two-thirds of the body's ammonia via the combined action of the urea cycle and glutamine synthetase, extrahepatic tissues do not express all the components required for performing a complete urea cycle and therefore depend on the glutamine synthetase reaction for ammonia clearance. The brain is particularly vulnerable to the effects of hyperammonemia, which include impaired extracellular potassium buffering and brain edema. Moreover, the glutamine synthetase reaction is intimately linked to the metabolism of the excitatory and inhibitory neurotransmitters glutamate and gamma aminobutyric acid (GABA), implicating a key role for this enzyme in neurotransmission. This review discusses the emerging roles of glutamine synthetase in brain pathophysiology, particularly aspects related to ammonia homeostasis and hepatic encephalopathy.

Keywords: Ammonia; Brain; Glutamate transporter; Glutamine synthetase; Liver; Neurotransmitter; Urea cycle.