Abstract
Phenylketonuria (PKU), the most frequent inborn error of metabolism (1/15,000 live births), is an autosomal recessive condition caused by phenylalanine hydroxylase deficiency. Despite early and strict dietary control, some PKU children still exhibit behavioral and cognitive difficulties suggestive of a partly prenatal brain injury. The reported variability between the cognitive and clinical phenotypes within the same family raises the question of modifying genes in PKU. We suggest here that monoamine oxidase type B, MAOB, an enzyme degrading phenylethylamine, a very toxic metabolite of phenylalanine, could act as a modifying gene since a variant enzymatic activity of MAOB in PKU patients with similar phenylalanine levels would result in different phenylethylamine levels and different clinical outcomes. Finally the report of low MAOB, and consequently expectedly high phenylethylamine levels in neonates is consistent with a phenylethylamine-mediated brain injury possibly causing irreversible damages in PKU newborns prior to onset of the low protein diet.
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