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lipogénesis

Lipogénesis, or lipogenesis, is the metabolic pathway by which acetyl-CoA is converted into fatty acids, primarily for storage as triglycerides. In humans, the liver and adipose tissue are the principal sites of de novo lipogenesis, which increases in the fed state after carbohydrate-rich meals.

The process begins with glucose-derived acetyl-CoA in the cytosol. Since acetyl-CoA cannot cross the mitochondrial membrane,

Stored results and export: fatty acids are esterified to glycerol to form triglycerides, which are stored in

Regulation and physiology: insulin stimulates lipogenesis by activating acetyl-CoA carboxylase and promoting citrate supply, while AMP-activated

citrate
is
exported
to
the
cytosol
and
cleaved
back
to
acetyl-CoA
and
oxaloacetate
by
ATP
citrate
lyase.
Acetyl-CoA
is
carboxylated
to
malonyl-CoA
by
acetyl-CoA
carboxylase,
a
key
rate-limiting
enzyme.
Fatty
acid
synthase
then
iteratively
elongates
the
growing
fatty
acid
chain,
ultimately
producing
palmitate
(C16:0).
Subsequent
elongation
and
desaturation
yield
longer
and
unsaturated
fatty
acids.
Reducing
power
for
these
reactions
is
provided
predominantly
by
NADPH,
generated
by
the
pentose
phosphate
pathway,
malic
enzyme,
and
cytosolic
isocitrate
dehydrogenase.
Glycerol-3-phosphate,
derived
from
glycolysis,
provides
the
glycerol
backbone
for
triglyceride
assembly.
adipose
tissue
or
exported
from
the
liver
as
very-low-density
lipoprotein
(VLDL).
protein
kinase
inhibits
ACC.
Malonyl-CoA
also
inhibits
fatty
acid
oxidation
by
reducing
transport
into
mitochondria.
Lipogenesis
adapts
to
energy
balance
and
hormonal
signals;
excessive
lipogenesis
is
linked
to
hepatic
steatosis
and
metabolic
syndrome
in
certain
conditions,
whereas
it
declines
during
fasting.