Long-term effects of human-to-rat mesencephalic xenografts on rotational behavior, striatal dopamine receptor binding, and mRNA levels

Fetal ventral mesencephalic grafts have been used as a tool to counteract the symptoms of Parkinson's disease. In this study human fetal ventral mesencephalic xenografts were implanted into the lateral ventricle of unilaterally dopamine-deplated immunosuppressed rats. Rotational behavior elicited by low doses of apomorphine, host striatal dopamine receptor binding, and mRNA levels were investigated. Rotational behavior was reduced beginning 2 months after grafting. After 4 months only a small number of rotations, lasting approximately 30 min, were recorded. Seven months after transplantation, the rotational behavior was completely eleminated. Dopamine D 2 receptor binding revealed significantly increased levels in sham-operated 6-hydroxydopamine- (6-OHDA) lesioned control striata. These increased levels decreased, and although still significantly higher at 4 months, normalized at the survival time of 7 months postgrafting. Regional differences were still obvious at 7 months in the dorsolateral quadrant of dorsal striatum. Dopamine D 2 receptor mRNA revealed significantly increased levels in the lateral aspects of 6-OHDA-lesioned control striata, reversing by 4 months postgrafting. The D 1 receptor binding revealed a moderately reduced signal in striata of lesioned animals. After grafting, this reduction became significantly lower than that seen in the control side, with a continous decrease over time. The same pattern was detected using in situ hybridization for dopamine D 1 receptor mRNA, that is, moderate decreases after dopamine depletion and a significant decrease in the dorsomedial part of dorsal striatum 7 months postgrafting. Dopamine D3 receptor binding was increased after dopamine depletion, but reversed already by 4 months postgrafting. Taken together, human ventral mesencephalic xenografts are able to completely reverse apomorphine-induced rotational behavior, provided the grafts are left in vivo for a sufficient time. The increased striatal D 2 receptors are reversed after grafting, but the human xenograff further suppressed the D 1 receptor subtype both at binding and at mRNA levels. There was no strict correlation in the time courses of dopamine receptor changes and reduction of rotational behavior.