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dihydrobiopterin

Dihydrobiopterin, abbreviated BH2, is the dihydro (partially reduced) form of biopterin, a pteridine compound that serves as a cofactor in several enzymatic hydroxylation reactions. In biochemistry, the tetrahydro form of biopterin (BH4) is the more reduced and active cofactor, while BH2 is its oxidized product produced when BH4 donates electrons during hydroxylation.

In mammals, BH4-dependent enzymes include phenylalanine hydroxylase, tyrosine hydroxylase, and tryptophan hydroxylase. During these reactions, BH4

Clinically, disruptions in BH4 regeneration can lead to impaired synthesis of catecholamines and serotonin, as well

is
oxidized
to
BH2
as
the
substrate
is
hydroxylated.
The
cellular
cofactor
pool
is
maintained
by
dihydropteridine
reductase
(DHPR),
which
uses
NADH
or
NADPH
to
reduce
BH2
back
to
BH4,
thereby
regenerating
the
active
cofactor
for
continued
catalysis.
The
balance
between
BH4
and
BH2
reflects
the
redox
state
of
the
cell
and
the
capacity
to
sustain
monooxygenase
activities.
as
elevated
phenylalanine
levels.
Dihydropteridine
reductase
deficiency
is
a
genetic
disorder
that
causes
malignant
phenylketonuria
due
to
insufficient
regeneration
of
BH4,
with
associated
neurotransmitter
deficiencies.
Treatment
approaches
often
involve
BH4
supplementation
and
replacement
of
deficient
neurotransmitters.
The
BH2/BH4
cycle
is
thus
central
to
amino
acid
metabolism
and
neurotransmitter
production
in
humans.