The neurotoxicity of the AMPA/kainate receptor agonist kainate was investigated in motor and cortical neurones from mice overexpressing the wild-type and G93A mutant form of Cu/Zn superoxide dismutase (SOD1) human gene, a mouse model of familial amyotrophic lateral sclerosis. G93A mutant motor neurones were more vulnerable and wild-type SOD1 motor neurones were more resistant to kainate toxicity than were controls. Voltage-gated Na+ channels blockage prevented G93A mutant SOD1 motor neurone death. Cortical cultures exhibited fewer differences in their vulnerability to kainate toxicity. These results demonstrate that SOD1 over-expression selectively affects the sensitivity to kainate excitotoxicity of motor neurones but not neocortical neurones, and that wild-type SOD1 expression increases the resistance to excitotoxicity of motor neurones.
Altered vulnerability to kainate excitotoxicity of transgenic-Cu/Zn SOD1 neurones / Alida, Spalloni; Pascucci, Tiziana; Federica, Albo; Francesca, Ferrari; PUGLISI ALLEGRA, Stefano; Cristina, Zona; Giorgio, Bernardi; Patrizia, Longone. - In: NEUROREPORT. - ISSN 0959-4965. - 15:16(2004), pp. 2477-2480. [10.1097/00001756-200411150-00009]
Altered vulnerability to kainate excitotoxicity of transgenic-Cu/Zn SOD1 neurones
PASCUCCI, Tiziana;PUGLISI ALLEGRA, Stefano;
2004
Abstract
The neurotoxicity of the AMPA/kainate receptor agonist kainate was investigated in motor and cortical neurones from mice overexpressing the wild-type and G93A mutant form of Cu/Zn superoxide dismutase (SOD1) human gene, a mouse model of familial amyotrophic lateral sclerosis. G93A mutant motor neurones were more vulnerable and wild-type SOD1 motor neurones were more resistant to kainate toxicity than were controls. Voltage-gated Na+ channels blockage prevented G93A mutant SOD1 motor neurone death. Cortical cultures exhibited fewer differences in their vulnerability to kainate toxicity. These results demonstrate that SOD1 over-expression selectively affects the sensitivity to kainate excitotoxicity of motor neurones but not neocortical neurones, and that wild-type SOD1 expression increases the resistance to excitotoxicity of motor neurones.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
