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integrines

Integrins are a family of transmembrane receptors that mediate adhesion between cells and the extracellular matrix (ECM) or between neighboring cells. They function as heterodimers composed of one alpha and one beta subunit. In humans, 18 alpha and 8 beta subunits assemble into at least 24 distinct integrins, each with specific ligand preferences. The extracellular domains of integrins recognize ECM proteins such as fibronectin, collagen, laminin, and vitronectin; some subtypes bind to the RGD motif, while others recognize different sequences.

Integrins also connect to the actin cytoskeleton inside the cell via adaptor proteins including talin and

Biological roles include embryonic development, wound healing, immune cell trafficking, and platelet aggregation, where αIIbβ3 mediates

kindlin,
forming
focal
adhesions.
Activation
occurs
through
inside-out
signaling,
in
which
signals
such
as
chemokines
or
cytoplasmic
proteins
induce
conformational
changes
that
increase
affinity.
Engagement
with
ECM
ligands
triggers
outside-in
signaling,
activating
kinases
such
as
focal
adhesion
kinase
(FAK)
and
Src,
promoting
cytoskeletal
rearrangements,
cell
migration,
proliferation,
survival,
and
gene
expression.
Integrins
can
cluster
to
strengthen
adhesion
and
coordinate
communication
between
the
cell
interior
and
its
external
environment.
platelet
aggregation
and
is
a
common
therapeutic
target.
Dysregulation
of
integrin
signaling
is
linked
to
cancer
metastasis,
fibrosis,
and
inflammatory
diseases.
Genetic
deficiencies
in
integrins,
such
as
mutations
in
ITGB2
causing
leukocyte
adhesion
deficiency
type
I
(LAD-1),
impair
immune
cell
adhesion.
Therapeutic
approaches
include
integrin-blocking
antibodies
and
small
molecules
to
modulate
adhesion
and
signaling
in
various
diseases.