Elevation of glutathione levels by ammonium ions in primary cultures of rat astrocytes.

It is well established that ammonia is detoxified in the brain to form glutamine and that astrocytes play a major role in this process. The synthesis of glutamine requires glutamate and ATP. Since glutamate and ATP are also required for the synthesis of glutathione (GSH), we examined the effect of pathophysiological concentrations of ammonia on levels of GSH in primary cultures of astrocytes.

Association between cell swelling and glycogen content in cultured astrocytes.

Treatment of cultured rat astrocytes with hypotonic media or with 1 mM glutamate for 90 min caused cell swelling and a significant increase in glycogen content. Conversely, treatment with hypertonic media caused cell shrinkage with a corresponding decrease in astrocyte glycogen, which was proportional to the increasing osmolality of the hypertonic media. The glutamate receptor antagonist, MK-801, lowered both the glutamate-induced swelling and glycogen increase.

Acute liver failure and hyperammonemia increase peripheral-type benzodiazepine receptor binding and pregnenolone synthesis in mouse brain.

We investigated the role of brain peripheral-type benzodiazepine receptors (PBRs) and pregnenolone (a product of PBRs activation) in hepatic encephalopathy (HE)/hyperammonemia. Administration of the hepatotoxin, thioacetamide, or ammonium acetate to mice for 3 days significantly increased the number of brain PBRs (138-146% of control) and the affinity of the ligands for these receptors (2-fold). The total content of pregnenolone and its rate of synthesis in brain of the experimental animals were significantly increased.

Glycogen synthesis in the astrocyte: from glycogenin to proglycogen to glycogen.

The astrocyte of the newborn rat brain has proven to be a versatile system in which to study glycogen biogenesis. We have taken advantage of the rapid stimulation of glycogen synthesis that occurs when glucose is fed to astrocytes, and the marked limitation on this synthesis that occurs in astrocytes previously exposed to ammonium ions. These observations have been related to our earlier reports of the initiation of glycogen synthesis on a protein primer, glycogenin, and the discovery of a low-molecular-weight form of glycogen, proglycogen.

The action of ammonia on astrocyte glycogen and glycogenolysis.

Most of the brain glycogen, a major energy reserve that can be mobilized in response to increased neuronal activity, resides in the astrocyte, the site of the neuropathological abnormality found in hepatic encephalopathy (HE). Ammonia, a neurotoxin implicated in the pathogenesis of HE, has been reported to cause a depletion of glycogen in primary astrocyte cultures. To further investigate the action of ammonia on glycogen levels, cultured astrocytes were exposed to ammonium chloride (1-5 mM) for various times up to 7 d.