Monitoring of cell viability in suspensions of embryonic CNS tissue and its use as a criterion for intracerebral graft survival

Neuronal cell suspensions, prepared by trypsination and mechanical disruption from embryonic CNS tissue, are currently used for intracerebral neuronal grafting to deep brain sites. In the present study the viability of suspended neurons from different brain regions has been monitored with a fluorescent vital stain, and studied as a function of time after dissociation and age of the donor rat embryos. Subsequently, the validity of the in vitro viability rates as a criterion for the in vivo survivability of each individual suspension was tested for suspensions prepared from the developing mesencephalon, rich in dopamine-containing neurons. The results indicate that mechanically dissociated embryonic CNS neurons remain viable for several hours in a simple glucose-saline solution at room temperature. The in vitro viability scores declined faster in suspensions prepared from mesencephalon than in those prepared from telencephalon (striatum and basal forebrain), and they declined faster in suspensions prepared from older embryos. The fetal cells were sensitive to the mechanical trauma caused by excessive pipetting, and tissue from older embryos seemed generally more vulnerable in the trypsination-dissociation procedure. The grafting experiments showed a good correlation between the in vitro cell viability counts and in vivo neuronal survival after grafting, indicating that the vital stain, at least under certain conditions, can be used as a simple and practical routine test to check and standardize cell suspensions to be used in intracerebral grafting experiments.

Functional neuronal replacement by grafted striatal neurones in the ibotenic acid-lesioned rat striatum

In rats, striatal neuronal destruction by so-called excitotoxic amino acids, kainic acid or ibotenic acid (IA) produce neuropathological and neurochemical changes in the basal ganglia which resemble those seen in patients with Huntington's chorea. Such lesioned animals show a behavioural syndrome which is reminiscent of the cardinal symptoms of the disease, accompanied by a substantial increase in local cerebral metabolic activity in several striatal target structures within the extrapyramidal motor system. The study was designed to explore the potential of grafted fetal striatal neurones implanted into the IA-lesioned striatum to compensate for the structural, neurochemical, metabolic and behavioural defects of IA-lesioned rats. Extending previous studies, we report here that such striatal implants can significantly ameliorate the lesion-induced locomotor hyperactivity and at least partly normalize the metabolic hyperactivity in the extrapyramidal neuronal system.

Intracerebral grafting of embryonic neural cells into the adult host brain: an overview of the cell suspension method and its application

An overview is presented of general principles for intracerebral grafting of embryonic brain tissue to the adult mammalian brain. Special reference is made to the development and use of the dissociated neuronal cell suspension method. Examples are drawn primarily from experiments where embryonic ventral mesencephalon is transplanted to adult striatum and embryonic septal-diagonal band area is transplanted to the hippocampal formation. Results related to the cell viability in vitro and in vivo and to axonal outgrowth are the main focuses of this overview.