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fibronectin

Fibronectin is a high-molecular-weight glycoprotein of the extracellular matrix and plasma. It exists as soluble plasma fibronectin and insoluble cellular fibronectin that is assembled into fibrillar matrices by cells. Each subunit of fibronectin is about 220-250 kDa and comprises repeating modules of type I, II, and III domains. Two nearly identical polypeptide chains are linked by a disulfide bond near the C-terminus to form a dimer. In humans, alternative splicing of the fibronectin gene yields variants that include the extra domains EDA (EIIIA) and EDB (EIIIB) and the V segment, producing tissue-specific isoforms that are prevalent in development and wound healing.

Fibronectin has multiple binding sites: the RGD sequence in the FNIII9-10 modules binds integrins (for example

Fibronectin is synthesized by many cell types; plasma fibronectin is predominantly produced by hepatocytes and circulates

α5β1
and
αv-containing
integrins)
to
promote
cell
adhesion;
other
sites
bind
collagen,
heparin,
fibrin,
and
other
ECM
components.
Through
these
interactions,
fibronectin
acts
as
a
major
organizer
of
the
extracellular
matrix
and
as
a
bridge
between
cells
and
the
ECM,
supporting
adhesion,
migration,
proliferation,
and
differentiation.
Fibronectin
also
participates
in
wound
healing
and
angiogenesis
and
can
be
assembled
into
fibrils
by
cell-mediated
contraction
in
a
process
called
fibronectin
fibrillogenesis.
in
blood,
while
cellular
fibronectin
is
deposited
into
the
ECM
by
fibroblasts,
epithelial,
and
endothelial
cells.
Aberrant
expression
or
splicing
of
fibronectin
is
associated
with
pathological
conditions,
including
fibrosis,
tumor
progression,
and
vascular
diseases,
and
it
has
been
explored
as
a
target
in
various
therapies.