Neonatal destruction of dopaminergic neurons.

Rats treated as neonates with 6-hydroxydopamine are proposed to model the dopamine deficiency associated with Lesch-Nyhan syndrome (LNS). To understand the neurobiological basis of specific behaviors in LNS, investigations were undertaken in these neonatally lesioned rats. Several new findings resulted from these studies. The first was that D1-dopamine receptors are essential for the action of D2-dopamine receptors, a phenomenon called "coupling" of receptor function. Another finding was that D1-dopamine receptors must be repeatedly stimulated before maximal behavioral sensitivity can be observed. This has been referred to as "priming" of D1-dopamine receptor responsiveness. This priming action by repeated administration of a D1-dopamine agonist was antagonized by NMDA antagonists indicating a potential role of glutamate in this sensitization. Ongoing work suggests that DARPP-32 is not involved in priming of D1-dopamine receptor responsiveness. However, we have observed an accumulation of GFAP in brain following repeated administration of a D1-dopamine agonist. In addition, immunoblots employing an antibody to phospho-DARPP-32 revealed a protein present in lesioned rats that was not present in control rats. Studies in these lesioned rats are expected to continue to contribute to our basic understanding of adaptive changes caused by lesioning of dopaminergic neurons during development.