Topiramate protects against glutamate- and kainate-induced neurotoxicity in primary neuronal-astroglial cultures.

Potential neuroprotective effects of the antiepileptic drug (AED) topiramate (TPM) were evaluated using primary neuronal-astroglial cultures or astroglial-enriched cultures from newborn rats exposed to excitotoxic concentrations of glutamate (Glu) or kainate. Neurons expressed functional Glu receptors of the NMDA and AMPA/kainate types as evaluated by immunocytochemistry and Ca(2+) imaging. When Glu (10 mM) was added to 9-10-day cultures incubated with the fluorescent dye calcein/AM for 5h, there was a marked cell loss in both culture types, but was more pronounced in the neuronal-astroglial cultures. When TPM (5-10 microM) was included in the medium together with Glu, the amount of surviving cells was significantly higher in the neuronal-astroglial cultures, but not in the astroglial-enriched cultures. Immuno-labeling of the cultures revealed an enhanced survival of MAP positive neuronal cells when TPM was included in the Glu containing medium. As TPM has a proven negative modulatory effect on kainate activated receptors, neuronal-astroglial cultures were further exposed to excitotoxic concentrations of kainate (100 microM) and analyzed immunohistochemically. Significantly more MAP positive neurons survived in the TPM containing medium and showed a morphology similar to untreated cells. Valproate and phenytoin were used as reference AEDs. In conclusion, our results demonstrate a protective effect of TPM upon neuronal cells in primary culture, exposed to excitotoxic levels of Glu or kainate.