The data suggest that 1) brain BH4 is decreased substantially in dopa-responsive dystonia, 2) dopa-responsive dystonia can be distinguished from degenerative nigrostriatal dopamine deficiency disorders by the presence of reduced brain neopterin, and 3) the striatal dopamine reduction in dopa-responsive dystonia is caused by decreased TH activity due to low cofactor concentration and to actual loss of TH protein. This reduction of TH protein, which might be explained by reduced enzyme stability/expression consequent to congenital BH4 deficiency, can be expected to limit the efficacy of acute BH4 administration on dopamine biosynthesis in dopa-responsive dystonia.
In postmortem examination of brains of four patients with chronic paranoid schizophrenia, above-normal norepinephrine levels were measured in the ventral septum, the bed nucleus of the stria terminalis, the nucleus accumbens, and the mammillary bodies. No changes were detected in other limbic forebrain regions, including the hypothalamus and the medial olfactory (preoptic) area. The results point to the possibility of a malfunction of limbic noradrenergic mechanisms in schizophrenia, especially the paranoid variety.
Dopamine, norepinephrine, and octopamine levels were estimated in regions of brains obtained postmortem from children who died with Reye syndrome and from age-matched controls. Hypothalamic norepinephrine levels were greatly decreased (to 30 percent of control, p less than 0.02) and octopamine levels were increased (to 700 percent of control, p less than 0.01). Levodopa had little effect on the physiologic condition of the patients. However, CNS dopamine and homovanillic concentrations were not elevated by levodopa, indicating that in the present cases levodopa was not metabolized to its catecholamine products. The findings indicate that the encephalopathy of Reye syndrome (as in other types of hepatic coma) may be linked to the presence of false transmitters in the brain and that levodopa is a rational therapy if administered before irreversible CNS changes occur.
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