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acylcarnitines

Acylcarnitines are esters formed from carnitine and fatty acyl groups. They are key intermediates in the mitochondrial transport of long-chain fatty acids and in the regulation of fatty acid oxidation.

Biochemically, fatty acids are activated to fatty acyl-CoA in the cytosol. The outer mitochondrial membrane enzyme

Acylcarnitines constitute a broad family, including short-, medium-, and long-chain species, as well as hydroxylated and

Clinical relevance is most prominent in fatty acid oxidation disorders. Plasma and urine acylcarnitine profiling, often

carnitine
palmitoyltransferase
I
(CPT
I)
converts
fatty
acyl-CoA
to
fatty
acylcarnitine,
which
is
then
shuttled
across
the
inner
mitochondrial
membrane
by
carnitine
acylcarnitine
translocase
(CACT).
Inside
the
matrix,
carnitine
palmitoyltransferase
II
(CPT
II)
reconverts
the
acylcarnitine
to
fatty
acyl-CoA,
enabling
beta-oxidation.
This
carnitine
shuttle
system
is
essential
for
the
oxidation
of
long-chain
fatty
acids.
dicarboxylated
derivatives.
Their
levels
in
biological
fluids
reflect
the
activity
of
beta-oxidation
and
the
capacity
of
the
carnitine
shuttle.
They
can
accumulate
when
there
is
a
block
or
limitation
in
fatty
acid
transport
or
oxidation,
or
during
metabolic
stress.
by
tandem
mass
spectrometry,
is
used
in
newborn
screening
and
in
diagnosing
disorders
such
as
CPT
I
deficiency,
CPT
II
deficiency,
and
CACT
deficiency.
Specific
patterns—such
as
elevated
long-chain
acylcarnitines
or
reduced
free
carnitine—aid
interpretation
and
subsequent
management.