Common marmosets (Callithrix jacchus, n = 18) were trained to discriminate between rewarded and non-rewarded objects (simple discriminations, SDs) and to make conditional discriminations (CDs) when presented sequentially with two different pairs of identical objects signifying reward either in the right or left food well of the Wisconsin General Test Apparatus. After bilateral N-methyl-D-aspartate (0.12 M) lesions through the cornu ammonis-1 (CA1) field (7 microl in five sites), marmosets showed profound impairment in recall of CDs but not SDs, and were assigned to lesion only, lesion plus CA1 grafts and lesion plus Maudsley hippocampal cell line, clone 36 (MHP36) grafts groups matched for lesion-induced impairment. Cell suspension grafts (4 microl, 15-25 000 cells/microl) of cells dissected from the CA1 region of foetal brain at embryonic day 94-96, or of conditionally immortalized MHP36 cells, derived from the H-2Kb-tsA58 transgenic mouse neuroepithelium and labelled with [3H]thymidine, were infused at the lesion sites. The lesion plus MHP36 grafts group was injected five times per week with cyclosporin A (10 mg/kg) throughout testing. Lesion, grafted and intact control marmosets (n = 4-5/group) were tested on recall of SDs and CDs learned before lesioning and on acquisition of four new CDs over a 6-month period. Lesioned animals were highly impaired in recall and acquisition of CD tasks, but recall of SDs was not significantly disrupted. Both grafted groups of marmosets showed improvement to control level in recall of CDs. They were significantly slower in learning the first new CD task, but mastered the remaining tasks as efficiently as controls and were substantially superior to the lesion-only group. Visualized by Nissl staining, foetal grafts formed clumps of pyramidal-like cells within the denervated CA1 field, or jutted into the lateral ventricles. MHP36 cells, identified by beta-galactosidase staining and autoradiography, showed neuronal and astrocytic morphology, and were distributed evenly throughout the CA1 region. The results indicate that MHP36 cell grafts are as functionally effective as foetal grafts and appear to integrate into the host brain in a structurally appropriate manner, showing the capacity to differentiate into both mature neurons and glia, and to develop morphologies appropriate to the site of migration. These findings, which parallel the facilitative effects of foetal and MHP36 grafts in rats with ischaemic CA1 damage, offer encouragement for the development of conditionally immortal neuroepithelial stem cell lines for grafting in conditions of severe amnesia and hippocampal damage following recovery from cardiac arrest or other global ischaemic episodes.
Monkeys with bilateral excitotoxic lesion of the CA1 field of the hippocampus were severely impaired at learning visuospatial conditional tasks. This was not a general spatial impairment, because the animals were not impaired on serial spatial reversal, which requires response flexibility in the spatial domain; they were not impaired at learning to choose the position furthest away from a single stimulus, which requires analysis of spatial layout of the test area, and they were not impaired at discriminating between two patterns that differed only in orientation. CA1-lesioned monkeys were impaired at learning a visuospatial conditional task when trials of the two component types "if AA go left" and "if BB go right" were presented according to either a pseudorandom or alternating schedule; but they were not impaired if one component type of trial was presented until three consecutive correct responses were made, followed by the other type of trial, to three consecutive correct responses. In all cases testing continued until a criterion of 27 of 30 consecutive correct responses across both types of trial was achieved. Although this suggests that CA1-lesioned animals are particularly prone to interference effects, they had no difficulty in learning ten concurrent visual discriminations presented against either a uniform background or with each discrimination presented against its own distinctive background, a condition that might reduce interference in unoperated monkeys. Interference following hippocampal damage might occur at a deeper level than stimulus identification such that animals with hippocampal damage may be able to learn about many aspects of different stimuli in parallel but may be unable to learn about multiple related aspects of the same subject matter. Monkeys with grafts of fetal CA1 tissue in the lesioned CA1 field showed significant improvement relative to CA1-lesioned animals on those tasks on which CA1-lesioned animals were impaired, although they remained impaired relative to control animals. This suggests that the grafts had produced some improvement in performance. Grafted monkeys did not differ from unoperated control monkeys or from CA1-lesioned monkeys on those tasks that were not sensitive to CA1 damage. This demonstrates that the grafts did not have an additional deleterious effect on cognitive performance.
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