Differences in the metabolism of the aromatic amino acid hydroxylase cofactor, tetrahydrobiopterin, in mutant mice with neurological and immunological defects

Abstract

Tetrahydrobiopterin (BH₄) levels and GTP cyclohydrolase activity (GTP-CH) were measured in tissues from mutants and controls of 24 different mouse strains to identify mutants that might be suitable models for diseases which are characterized by a deficiency of the biopterin cofactor, such as parkinsonism and atypical phenylketonuria. BH₄ levels and GTP-CH activity were determined in brain, liver, and spleen obtained from 24 mutants with neurological or immunological defects. BH₄ levels in brain were slightly but significantly decreased in only two mutants, spastic (spa) and jittery (ji), while GTP-CH activity in brain was not significantly lower than controls in any of the strains examined. GTP-CH levels in liver were significantly decreased in four mutant strains (jittery, ji; leaner, tg ^la; reeler, rl; and anorexia, anx); however, BH₄ levels were significantly lower only in the mutant anorexia (anx). The most significant and widespread changes in both BH₄ levels and GTP-CH activity were observed in spleen. In those mutants which were most affected, BH₄ levels and GTP-CH activity were decreased 85–90%.