Chronic blockade of spontaneous bioelectric activity by means of tetrodotoxine in rat cerebral cortex cultures affects synaptogenesis

Dissociated occipital cortex of 19-day-old fetal rats was grown in a serum-free, chemically defined medium in order to study the role of bioelectric activity on synaptogenesis. Using stereological methods, various synaptic parameters were quantif ied in these cultures. Chronic blockade of the bioelectric activity by means of tetrodotoxin (TTX) during the first three weeks in vitro turned out to retard, but not to prevent, neurit ic outgrowth, synapse formation and the maturation of the synaptic junction itself. Around 23 days in vitro, the center of the control cultures started to degenerate while the center of the TTX-treated cultures showed no signs of degeneration before day 27. Concomitant with this central degeneration, the control cultures suffered a considerable loss of spine synapses in intact tissue regions (mainly situated at the outside of the aggregates). Possible causes for the central degeneration and the selective loss of spine synapses are discussed.