Abstract
Glutamate is the main excitatory amino acid acting at the level of pre and postsynaptic neurons, as well as in glial cells. It is involved in the coordinated modulation of energy metabolism, glutamine synthesis, and ammonia detoxification. The relationship between the functional status of liver and brain has been known for many years. The most widely recognized aspect of this relation is the brain dysfunction caused by acute liver injury that manifests a wide spectrum of neurologic and psychiatric abnormalities. Inflammation, circulating neurotoxins, and impaired neurotransmission have been reported in this pathophysiology. In the present contribution, we report the effect of a hepatotoxic compound like CCl4 on the expression of key proteins involved in glutamate uptake and metabolism as glutamate transporters and glutamine synthetase in mice liver, brain, and cerebellum. Our findings highlight a differential expression pattern of glutamate transporters in cerebellum. A significant Purkinje cells loss, in parallel to an up-regulation of glutamine synthetase, and astrogliosis in the brain have also been noticed. In the intoxicated liver, glutamate transporter 1 expression is up-regulated, in contrast to glutamine synthetase which is reduced in a time-dependent manner. Taken together our results demonstrate that the exposure to an acute CCl4 insult, leads to the disruption of glutamate transporters expression in the liver-brain axis and therefore a severe alteration in glutamate-mediated neurotransmission might be present in the central nervous system.
Highlights
The liver is essential for the balance of metabolism in the body
Since the excess of Glu leads to hyper-activation of its receptors, a phenomenon known as excitotoxicity, the levels of Glu in the synaptic clef are tightly regulated by the sodiumdependent glutamate transporters, members of the solute carrier family 1 (SLC1), named Excitatory Amino Acid Transporters (EAATs), which are highly expressed in glial cells
Glutamine Synthetase (GS) expression as assayed by western blot showed a tendency to a decrease (65 ± 23.87%) in the livers treated with a single dose of Carbon tetrachloride (CCl4) (Figures 2A,B), compared to vehicle-treated mice
Summary
The liver is essential for the balance of metabolism in the body. It is responsible for protein, carbohydrate and lipid metabolism, glucose homeostasis, bile secretion, and detoxification. Since the excess of Glu leads to hyper-activation of its receptors, a phenomenon known as excitotoxicity, the levels of Glu in the synaptic clef are tightly regulated by the sodiumdependent glutamate transporters, members of the solute carrier family 1 (SLC1), named Excitatory Amino Acid Transporters (EAATs), which are highly expressed in glial cells. Glu uptake by these cells maintains the extracellular Glu concentration in the low micromolar range (Danbolt, 2001). Our results propose the disruption of Glu turnover in cerebellum and brain and further support the notion of a brain-liver axis
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