Electrophysiological analysis of the circuitry and of the corticonuclear relationships in the agranular cerebellum of irradiated rats.

The cerebellar circuitry and the corticonuclear relationships were studied in the cerebellum of adult rats rendered agranular through 7 successive exposures to X-ray radiations during infancy. Data were obtained through examination of electrical responses induced in Purkinje cells (PC) and in neurons of the lateral vestibular nucleus (LVN) by cerebellar and spinal stimulations. In irradiated rats, PC exhibited antidromic activation with a high axonal threshold and 70% of them also presented typical climbing fiber responses (CFRs). By contrast, they exceptionnally exhibited responses via the mossy fiber (MF)-granule cell pathway, but two other classes of responses were identified: i) short latency single spike responses attributed to a direct excitatory impingement of MF onto PC; ii) atypical CFRs formed of high frequency bursts of simple spikes which were seen in 76% of PC tested. Furthermore, 53% of these cells also presented typical CFRs, strongly suggesting these PC were innervated by more than one CF, thus confirming previous data on the same type of agranular cerebellum. In the LVN neurons of control and irradiated rats, spinal and cerebellar stimulations evoked clear cut IPSPs. On the basis of their shape, latency, and occurrence in animals with or without cerebellum and with or without lesion of the CF pathway, they were interpreted as mediated through direct or synaptic activation of PC or through an extracerebellar pathway. In irradiated rats, the quantitative study of these IPSPs gave further arguments in favor of a multiinnervation of PC by CF and of an important reafferentation of MF onto PC. However, the functional efficiency of this reafferentation appeared very low, as tested by activation of MF originating in the spinal cord. Finally, the intracellular recording of LVN neurons showed that a large majority of PC axons retained normal synaptic connections with nuclear cells in treated animals, indicating that corticonuclear relationships do not markedly depend upon granule cells and normal CF input.