Biochemical and structural brain alterations in female mice with cerebral pyruvate dehydrogenase deficiency.

Pyruvate dehydrogenase complex (PDC) deficiency is an inborn metabolic disorder associated with a variety of neurologic abnormalities. This report describes the development and initial characterization of a novel murine model system in which PDC deficiency has been introduced specifically into the developing nervous system. The absence of liveborn male and a roughly 50% reduction in female offspring following induction of the X-linked mutation indicate that extensive deficiency of PDC in the nervous system leads to pre-natal lethality.

Alcohol-induced neurodegeneration: when, where and why?

This manuscript reviews the proceedings of a symposium organized by Drs. Antonio Noronha and Fulton Crews presented at the 2003 Research Society on Alcoholism meeting. The purpose of the symposium was to examine recent findings on when alcohol induced brain damage occurs, e.

The total numbers of cerebellar granule neurons in young and aged Fischer 344 and Wistar-Kyoto rats do not change as a result of lengthy ethanol treatment.

It is generally accepted that long term chronic ethanol consumption by young rats will lead to significant losses of cerebellar granule neurons (GN). A recent study in this laboratory showed, however, that 40 weeks of chronic ethanol consumption had no effect on the total numbers of GN in aged Fischer 344 rats (F344). The goals of the present study were to determine whether F344 GN were resistant to ethanol toxicity only in aged rats and whether resistance of GN in aged rats to ethanol toxicity occurred only in the F344 strain.

Disruption of frontocerebellar circuitry and function in alcoholism.

This article represents a symposium of the 2002 joint meeting of RSA and ISBRA held in San Francisco. Presentations were Neuropathology of alcohol-related cerebellar damage in humans, by Antony J. Harding; Neuropathological evidence of cerebellar damage in an animal model of alcoholism, by Roberta Pentney and Cynthia Dlugos; Understanding cortical-cerebellar circuits through neuroimaging study of chronic alcoholics, by Peter R.

Quantitative immunocytochemistry of GABA and synaptophysin in the cerebellar cortex of old ethanol-fed rats.

Background: Ethanol-related synaptic loss, Purkinje neuron dendritic regression, and parallel fiber degeneration have been reported in the molecular layer of the adult cerebellar cortex. The known plasticity of the cerebellar cortex suggests that this region may respond to ethanol-related losses by compensatory remodeling of cerebellar circuitry. Stellate and basket interneurons may play an essential role in the remodeling process.