Published online by Cambridge University Press: 02 June 2009
In the South African clawed-toed frog Xenopus laevis, visual experience plays a crucial role in the formation of matching binocular maps in the tectum. The ipsilateral eye's projection, relayed through the crossed isthmotectal projection, displays marked plasticity in response to altered visual input during a critical period of development. This plasticity and the events responsible for the end of the critical period are mediated by N-methyl-D-aspartate (NMDA) receptor function. We have previously reported that chronic blockade of tectal NMDA receptors with the NMDA antagonist 5-amino-phosphonovaleric acid (APV) prevents plasticity of the crossed isthmotectal projection during the critical period, while chronic treatment with NMDA restores this plasticity after the end of the critical period. These results raise the question of whether the effects on plasticity are due to changes in electrical responsiveness of the treated tissue. In this study, we have quantitatively assessed the actions of APV and NMDA on certain aspects of tectal cell activity in Xenopus during and after the critical period by recording the output of the nucleus isthmi cells that are activated by the tectum after three weeks of treatment. We have found that chronic APV treatment does not alter tectal output, as indicated by the firing of isthmotectal axons, during the critical period and that chronic NMDA treatment increases tectal output in postcritical period Xenopus. Tectal output does not differ between normal Xenopus during and after the end of the critical period.
These results indicate that the effect of APV on blocking isthmotectal plasticity is not due to a nonspecific inhibition of the segment of the retinotectal relay that activates the nucleus isthmi. The enhancement of tectal output in postcritical period Xenopus by chronic NMDA treatment may promote the effectiveness of NMDA in restoring isthmotectal plasticity after the end of the critical period, but the finding that tectal activity does not differ between normal Xenopus during and after the critical period implies that a reduction in tectal activity in not the cause of the loss of plasticity at the end of the critical period.