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Ammonia Prevents Activation of NMDA Receptors by Glutamate in Rat Cerebellar Neuronal Cultures

Authors

  • Goizane Marcaida,

    1. Instituto de Investigaciones Citológicas de la Fundaciön Valenciana de Investigaciones Biomödicas, Amadeo de Saboya 4, 46010 Valencia, Spain
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  • María-Dolores Miñana,

    1. Instituto de Investigaciones Citológicas de la Fundaciön Valenciana de Investigaciones Biomödicas, Amadeo de Saboya 4, 46010 Valencia, Spain
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  • María Burgal,

    1. Instituto de Investigaciones Citológicas de la Fundaciön Valenciana de Investigaciones Biomödicas, Amadeo de Saboya 4, 46010 Valencia, Spain
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  • Santiago Grisolía,

    1. Instituto de Investigaciones Citológicas de la Fundaciön Valenciana de Investigaciones Biomödicas, Amadeo de Saboya 4, 46010 Valencia, Spain
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  • Vicente Felipo

    Corresponding author
    1. Instituto de Investigaciones Citológicas de la Fundaciön Valenciana de Investigaciones Biomödicas, Amadeo de Saboya 4, 46010 Valencia, Spain
      Correspondence to: Vicente Felipo, as above
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Correspondence to: Vicente Felipo, as above

Abstract

Acute ammonia toxicity is mediated by activation of NMDA receptors and is prevented by chronic moderate hyperammonaemia. The aim of this work was to assess whether the protective effect of chronic hyperammonaemia is due to impaired activation of the NMDA receptor. It is shown that chronic hyperammonaemia in rats decreases the binding of [3H]MK-801 to synaptosomal membranes from the hippocampus but not the amount of NMDAR1 receptor protein as determined by immunoblotting. In primary cultures of cerebellar neurons, long-term treatment with 1 mM ammonia also decreased significantly the binding of [3H]MK-801. These results suggest that ammonia impairs NMDA receptor activation. To confirm this possibility we tested the effect of long-term treatment of the cultured neurons with 1 mM ammonia on three well known events evoked by activation of the NMDA receptor: neuronal death induced by glutamate, increase in aspartate aminotransferase activity and increase in free intracellular [Ca2+]. Long-term treatment with ammonia prevented noticeably the effects of glutamate or NMDA on all these parameters. These results indicate that long-term treatment of neurons with 1 mM ammonia leads to impaired function of the NMDA receptor, which cannot be activated by glutamate or NMDA. Activation of protein kinase C by a phorbol ester restored the ability of the NMDA receptor to be activated in neurons treated with ammonia. This suggests that ammonia impairs NMDA receptor function by decreasing protein kinase C-dependent phosphorylation.

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