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hephaestin

Hephaestin is a copper-containing, membrane-bound ferroxidase that catalyzes the oxidation of ferrous iron (Fe2+) to ferric iron (Fe3+). In humans, the enzyme is encoded by the HEPH gene and is predominantly expressed by intestinal enterocytes, where it plays a key role in dietary iron absorption. The protein is localized to the basolateral surface of enterocytes and functions in concert with the iron exporter ferroportin (SLC40A1).

By converting Fe2+ to Fe3+, hephaestin facilitates the loading of iron onto transferrin in the bloodstream,

Regulation of iron homeostasis involves hepcidin and ferroportin; hepcidin downregulates ferroportin to limit iron export during

Clinical and research relevance: loss or dysfunction of hephaestin impairs iron export from enterocytes, leading to

See also: iron metabolism, ferroportin, transferrin, ceruloplasmin.

enabling
iron
transport
to
tissues
throughout
the
body.
This
oxidation
step
is
important
because
transferrin
preferentially
binds
ferric
iron,
and
proper
iron
export
from
enterocytes
depends
on
this
ferric
form.
inflammation
or
iron
overload.
Hephaestin
supports
efficient
iron
efflux
by
ensuring
the
iron
is
in
the
appropriate
oxidation
state
for
transferrin
binding.
iron
accumulation
in
the
intestinal
mucosa
and
reduced
serum
iron,
with
features
of
iron-restricted
erythropoiesis
and
microcytic
anemia
in
model
systems.
In
mice
lacking
hephaestin,
hypoferremia
and
iron
maldistribution
have
been
observed.
Hephaestin
is
related
to
ceruloplasmin,
another
multicopper
oxidase,
and
has
homologs
such
as
hephaestin-like
protein
(HEPHL1)
in
vertebrates.