The acetylcholine innervation of cerebral cortex: new data on its normal development and its fate in the hAPP sub(SW,IND) mouse model of Alzheimer's disease

To follow on prior studies of the cerebral cortex, we examined the acetylcholine innervation in the developing hippocampus of rat, by means of light and electron microscopic immunocytochemistry with a highly sensitive antibody against choline acetyltransferease. As in neocortex, the growth of this innervation mostly occurred within the first two weeks after birth. A preliminary ultrastructural survey indicated that a vast majority of these ChAT-immunostained axon varicosities were asynaptic during development as in the adult. In parallel, we quantified the cholinergic innervations of cerebral cortex and hippocampus in transgenic mice overexpressing human beta -amyloid peptide (hAPP sub(SW,IND)). A selective, widespread, plaque independent cholinergic denervation was thus demonstrated, first in hippocampus and then neocortex, in addition to a non-selective, plaque-dependent, local neurotoxic effect of aggregated beta -amyloid on ACh and 5-HT axons.