Synaptic Alterations in the Vestibulocerebellar System in Alzheimer's Disease

What is it about?

Alzheimer’s disease is one of the main causes of cognitive impairment in the presenium and senium. Despite increased efforts in investigations of the aetiological background of the disease, most of the pathogenetic mechanisms remain unclear. From the morphological point of view, neurofibrillary degeneration and neuritic plaques, the main hallmarks of Alzheimer’s disease, are mostly seen in the hippocampus and the cortex of the cerebral hemispheres. In contrast, the cerebellum and brain stem demonstrate minimal aggregates of neurofibrillary tangles. In addition, the neuronal population is better preserved in the cerebellum in contrast to the cortex of the brain hemispheres. In this study we attempted to detect alterations to the synapses in the vestibulocerebellar system, which is better preserved than the other structures in the central nervous system, even in the advanced stages of Alzheimer’s disease. The morphological analysis is based on examination of 10 brains via electron microscopy and silver impregnation in the nodule, flocculus and vestibular nuclei. Morphological analysis revealed a limited number of neuritic plaques and minimal neurofibrillary tangles. However, synaptic alterations of the mossy fibres, granule cell dendrites, parallel fibres and Purkinje cell dendritic spines were extensively seen in Alzheimer’s brains, in contrast to normal controls. In the granule layer, granule and Golgi cells were considerably decreased in number. The synapses between the mossy fibres and the granule cell dendrites were also decreased. Some of the synapses contained a limited number of polymorphous synaptic vesicles, numerous atypical mitochondria and dense bodies. Most synaptic alterations were in the mossy fibres’ presynaptic terminals. The number of synaptic contacts between the mossy fibre terminals and the dendrites of the granule and Golgi cells was dramatically decreased. In the vestibular nuclei, substantial loss of synapses among the local neuronal circuits was also observed. Morphological alterations of the Golgi apparatus were seen in several neurons of the medial and lateral vestibular nuclei. In conclusion, these observations obviously plead in favour of a synaptic pathology among the primary pathogenetic processes in Alzheimer’s.

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Why is it important?

The observation of marked synaptic alterations in the vestibular neurons and the vestibulocerebellar system is very important because the system remains relatively distinct from the other morphological alterations, such as neuritic plaques and neurofibrillary tangles, which are the morphological hallmarks of the disease. This fact obviously pleads in favour of a synaptic pathology as one of the fundamental pathogenetic mechanisms in AD, closely associated with the clinical manifestations of the disease. Fragmentation of the Golgi apparatus is also an important morphological fact in AD. It is well known that the Golgi apparatus plays a very important role in processing and storing of the proteins of the neuron, a role closely associated with axoplasmic flow and dendritic protein transport.

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