Abstract
The features of neuronal damage induced by the mitochondrial toxin NaN(3) were investigated in rat primary cortical neuron cultures. Cell viability (MTT colorimetric determination) and transmembrane mitochondrial potential (J-C1 fluorescence) were concentration-dependently reduced 24 h after NaN(3); neither nuclear fragmentation by DAPI, nor Annexin V positivity by flow cytometry were detected, ruling out the occurrence of apoptosis. The loss in cell viability (to 54 +/- 2%) observed 24 h after a 10-min treatment with 3 mM NaN(3) was prevented by the NMDA glutamate receptor antagonist MK801 (1 microM), by the antioxidants trolox (100 microM) and acetyl-L-carnitine (1 mM) and by the nitric oxide synthase inhibitor, L-NAME (100 microM), but not by the guanylylcyclase inhibitor ODQ, 10 microM. The mitochondrial dysfunction induced by NaN(3) provides a common platform for investigating the mechanisms of both ischemic and degenerative neuronal injury, useful for screening potential protective agents against neuronal death.
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