Metabolic brain disease
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Metabolic brain disease · Mar 1996
ReviewAlterations of thiamine phosphorylation and of thiamine-dependent enzymes in Alzheimer's disease.
There is a growing body of evidence to suggest that thiamine neurochemistry is disrupted in Alzheimer's Disease (AD). Studies in autopsied brain tissue from neuropathologically proven AD patients reveal significantly reduced activities of the thiamine phosphate dephosphorylating enzymes thiamine diphosphatase (TDPase) and thiamine monophosphatase (TMPase) as well as the thiamine diphosphate-dependent enzymes, pyruvate dehydrogenase complex, alpha-ketoglutarate dehydrogenase (alpha KGDH) and transketolase. ⋯ Decreased TDP concentrations and concomitantly increased TMP in autopsied brain tissue from AD patients and in CSF from patients with Dementia of the Alzheimer Type suggests that CNS thiamine phosphorylation-dephosphorylation mechanisms are disrupted in AD. alpha KGDH is a rate-limiting enzyme for cerebral glucose utilization and decreases in its activity are associated with lactic acidosis, cerebral energy failure and neuronal cell loss. Deficiencies of TDP-related metabolic processes could therefore participate in neuronal cell death mechanisms in AD.
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Several neuropathological reports in the last 5 years have described brain lesions characteristic of Wernicke's Encephalopathy in patients with AIDS. Using the erythrocyte transketolase activation assay, we now report biochemical evidence of thiamine deficiency in 9/39 (23%) of patients with AIDS or AIDS-related complex. ⋯ Thiamine deficiency in these patients most likely results from the cachexia and catabolic state characteristic of AIDS. In view of (i) the confirmed neuropathological evidence of Wernicke's Encephalopathy in AIDS patients, (ii) the significant thiamine deficiency in these patients and (iii) the difficulties of clinical diagnosis of Wernicke's Encephalopathy, it is recommended that dietary thiamine supplementation be initiated in all newly diagnosed cases of AIDS or AIDS-related complex.
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Metabolic brain disease · Dec 1987
Adaptive decreases in amino acids (taurine in particular), creatine, and electrolytes prevent cerebral edema in chronically hyponatremic mice: rapid correction (experimental model of central pontine myelinolysis) causes dehydration and shrinkage of brain.
The experimental model of central pontine myelinolysis--chronic (4-day) hyponatremia induced by daily injections of hypotonic dextrose solutions and vasopressin followed by rapid correction with saline--was used in young fasted and thirsted mice. In normal controls chronic fasting and thirsting lowered plasma and brain glucose levels and cerebral glycolytic and tricarboxylic acid cyclic metabolic fluxes. The fasting state had little effect on brain amino acids. ⋯ As a result, treatment produced a significant degree of dehydration and shrinkage of the brain. The findings stress the importance of amino acids (taurine in particular) and creatine levels, as well as electrolytes, in brain osmoregulation and suggest a role for an osmotic disequilibrium--blood osmolality higher than brain--in the production of brain lesions following rapid correction of chronic hyponatremia in animals and possibly in humans. Replenishment of depleted brain K+ and amino acid levels, as well as slow elevation of the chronically depressed level of plasma Na+, is recommended.