A GOLGI STUDY OF CEREBELLAR ATROPHY IN HUMAN CHRONIC ALCOHOLISM (original) (raw)
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Neuropathological, neuropsychological, and neuroimaging studies of human alcoholism provide evidence for degradation of frontal, pontine, thalamic, and cerebellar brain sites and disturbed associated functions. Current studies using neuroimaging combined with examination of executive functions, traditionally considered the sole purview of the frontal lobes, have identified a role for the cerebellum serving as a compensatory processing adjunct to enable normal performance
Effects of Lifelong Ethanol Consumption on Cerebellar Layer Volumes in AA and ANA Rats
Alcoholism: Clinical and Experimental Research, 1997
Aging and chronic alcohol consumption can cause degenerative changes in the cerebellar cortex. In this study, the effects of aging and lifelong alcohol consumption on cerebellar cortical layer volumes (molecular and granular) and also white matter layer volumes were studied in alcohol-preferring (AA) and nonpreferring (ANA) rats of both sexes. The ethanol-consuming animals (EtOH) had 12% (wlv) ethanol as the only available fluid from 4 to 22 months of age, whereas the young (3 month) and old controls (24 months) had only water to drink. The volumes of molecular, granular, and white matter layers of the cerebellar vermis in folia II, IV, VII, and X were measured by using systematic sampling and a point-counting method. The volumes of the granular and white matter layers showed consistent increase between 3 and 24 months of age, whereas the volume of the molecular layer remained unchanged with increasing age. Individual ethanol intake was measured over a 1-week period at the beginning and at the end of chronic ethanol exposure. Significant (ANOVA, p = 0.0oO) sex difference was found in the drinking behavior in both lines, with females consuming more alcohol than males (daily ethanol consumption at 22 months of age 3.2 f 0.3 vs. 7.1 f 0.3 glkg for AA males and females; 3.2 f 0.3 vs. 5.4 f 0.4 glkg for ANA males and females, respectively). The only ethanol-induced effect on the cerebellum was observed in ANA-EtOH females with a 15% reduction in the volumes of the molecular and granular layer in folium II compared with agematched controls and a significant ( p c 0.05, analysis of covariance with ethanol intake as a covariate) line difference in folium II (molecular and granular layers) was observed between ANA-EtOH females and AA-EtOH females. Furthermore, the volume of the molecular layer in folium II was significantly ( p c 0.05, analysis of covariance with ethanol intake and body weights as covariates) reduced for ANA-EtOH females, compared with ANA-EtOH males indicating a sex difference in the cerebellar degeneration due to chronic alcohol consumption. Of the three layers studied, the white matter layer was the most resistant layer to the effects caused by chronic alcohol consumption. In view of the fact that AA and ANA rats of both sexes differ regarding the drinking behavior and ethanol metabolism, they provide an important model for further research on ethanol-induced pathological changes in the central nervous system.
Neuroscience, 1999
This study examines the effect of chronic alcohol consumption on the human cerebellum using operational criteria for case selection [Caine D. et al. (1997) J. Neurol. Neurosurg. Psychiat. 62, 51-60] and unbiased stereological techniques. We describe, for the first time, structural changes in different functional zones of the cerebellum of chronic alcoholics and correlate these changes with specific clinical symptoms. No consistent changes in the number of neurons or the structural volume for any cerebellar region were observed in the chronic alcoholics without the clinical signs of Wernicke's encephalopathy. In all cerebellar measures, these chronic alcoholics did not differ significantly from the non-alcoholic controls, suggesting that chronic alcohol consumption per se does not necessarily damage human cerebellar tissue. However, several cerebellar changes were noted in the thiamine-deficient alcoholics studied. There was a significant decrease in Purkinje cell density (reduced on average by 43%) and molecular layer volume (reduced by 32%) in the cerebellar vermis in all thiamine-deficient chronic alcoholics. A decrease in cell density and atrophy of the molecular layer, where the dendritic trees of the Purkinje cells are found, without significant cell loss suggests loss of cellular dendritic structure and volume. These thiaminedeficient alcoholics also had a significant decrease (36% loss) in the estimated Purkinje cell number of the flocculi, disrupting vestibulocerebellar pathways.
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Alcohol-induced alterations of cerebellar function cause motor coordination impairments that are responsible for millions of injuries and deaths worldwide. Cognitive deficits associated with alcoholism are also a consequence of cerebellar dysfunction. The mechanisms responsible for these effects of ethanol are poorly understood. Recent studies have identified neurons in the input layer of the cerebellar cortex as important ethanol targets. In this layer, granule cells (GrCs) receive the majority of sensory inputs to the cerebellum through the mossy fibers. Information flow at these neurons is gated by a specialized pacemaker interneuron known as the Golgi cell, which provides divergent GABAergic input to thousands of GrCs. In vivo electrophysiological experiments have previously shown that acute ethanol exposure abolishes GrC responsiveness to sensory inputs carried by mossy fibers. Slice electrophysiological studies suggest that ethanol causes this effect by potentiating GABAergic transmission at Golgi cell-to-GrC synapses through an increase in Golgi cell excitability. Using patch-clamp electrophysiological techniques in cerebellar slices and computer modeling, we show here that ethanol excites Golgi cells by inhibiting the Na + /K + ATPase. Voltage-clamp recordings of Na + /K + ATPase currents indicated that ethanol partially inhibits this pump and this effect could be mimicked by low concentrations of ouabain. Partial inhibition of Na + /K + ATPase function in a computer model of the Golgi cell reproduced these experimental findings. These results establish a novel mechanism of action of ethanol on neuronal excitability, which likely has a role in ethanol-induced cerebellar dysfunction and may also contribute to neuronal functional alterations in other brain regions.
Acta Neuropathologica, 2006
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Alcoholism: Clinical & Experimental Research, 2003
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Image Anal Stereol, 2000
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