ENHANCED EFFICACY OF NIGRAL-STRIATAL COTRANSPLANTS IN BILATERALLY DOPAMINE-DEPLETED RATS - AN ANATOMICAL AND BEHAVIORAL-ANALYSIS

When embryonic ventral mesencephalic tissue containing nigral dopamine (DA) neurons is transplanted into adult DA-depleted striatum, synaptic connections form and behavioral effects are observed. This study investigated the cotransplantation of embryonic striatal tissue as a means of enhancing the innervation, survival, and functional effects of nigral transplants. Rats neonatally DA-depleted, via bilateral intraventricular injections of 6-hydroxydopamine, developed turning in response to amphetamine and stress following unilateral transplantation of either nigral or combination nigral-striatal cell suspensions. Animals with cotransplants developed higher levels of turning to both stimuli and maintained these responses for a longer period of time post-transplantation, when compared with animals receiving transplants of nigral cells alone. In addition, these combination transplants required fewer dopaminergic cells to produce a strong behavioral effect on the host. Dense patches of tyrosine hydroxylase (TH)-immunoreactive fibers were observed within the cotransplants, yet no greater outgrowth of DA fibers into host striatum was detected, Amphetamine produced widespread induction of the immediate-early gene c-fos in cells of host striatum that extended beyond the transplant-derived DA innervation. After both amphetamine and stress, Fos protein was found within both types of transplants, but these Fos-immunoreactive cells did not colocalize with TH-immunoreactive cells nor dense TH-immunoreactive patches within the grafts. Thus, cotransplanted embryonic striatal tissue augments the effects of ventral mesencephalic transplants, possibly by providing a trophic influence that enhances the function of the DA cells without increasing cell survival. (C) 1994 Academic Press, Inc.