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hemidesmosomes

Hemidesmosomes are multiprotein adhesion complexes located at the basal surface of epithelial cells, where they mediate adhesion to the underlying basement membrane. They anchor the keratin intermediate filament cytoskeleton inside the cell to components of the basal lamina, enabling stable attachment and resistance to mechanical stress.

The core transmembrane components include integrin α6β4 and the transmembrane collagen XVII (BP180). Extracellularly, these proteins

The organization and mechanism of hemidesmosomes create a robust, end-to-end connection between the cell interior and

Functionally, hemidesmosomes contribute to tissue integrity in stratified and glandular epithelia and participate in signaling through

Clinical relevance includes autoimmune and genetic disorders affecting adhesion. Autoantibodies against BP180 or BP230 can cause

interact
with
laminin-332
(laminin-5)
in
the
basement
membrane.
Intracellularly,
a
dense
plaque
formed
by
plectin
and
BP230
(BPAG1)
connects
to
keratin
filaments,
strengthening
the
linkage.
the
extracellular
matrix.
The
extracellular
region
links
to
basement
membrane
proteins,
while
the
intracellular
plaque
anchors
to
the
keratin
network,
enabling
the
cell
to
resist
shear
and
stretching
forces
in
tissues
such
as
skin
and
mucosa.
integrin
pathways.
They
are
dynamically
remodeled
during
development,
wound
healing,
and
disease.
bullous
pemphigoid,
a
blistering
autoimmune
disease.
Genetic
mutations
in
hemidesmosomal
components—such
as
ITGA6,
ITGB4,
COL17A1,
and
subunits
of
laminin-332
(LAMA3,
LAMB3,
LAMC2)—underlie
forms
of
epidermolysis
bullosa
and
other
basement
membrane
defects,
leading
to
epidermal
detachment
under
mechanical
stress.