GTP cyclohydrolase r (GTPCH) catalyzes the rate-limiting step of tetrahydro
biopterin (BH4) biosynthesis. GTPCH has been associated with two clinically
distinct human diseases: the recessive hyperphenylalaninemia (HPA) and the
dominant dopa-responsive dystonia (DRD). We found a recessive GTPCH mutati
on (R249 S, 747C-->G) in a dystonia patient. Her PHA-stimulated mononuclear
blood cells had a normal amount of GTPCH mRNA, but low GTPCH activity. Arg
inine 249 is located at the C-terminus of GTPCH, outside the catalytic site
. E. coli expressed recombinant R249 S mutant protein possessed normal enzy
me activity and kinetics. However, in transfected eukaryotic cells, R249 S
mutant protein expression level was lower than the wild-type protein. There
fore, this is suspected to be a destabilizing mutation. Our data suggest th
at DRD could be either dominantly or recessively inherited, and the inherit
ance might be determined by the mechanism of mutation.