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cofilin

Cofilin is an actin-binding protein of the ADF/cofilin family that controls actin filament turnover in eukaryotic cells. In mammals it is represented primarily by cofilin-1 and cofilin-2, with actin depolymerizing factor (ADF, also called destrin) as a related family member. Cofilin binds to both G-actin and F-actin, with a preference for ADP-bound actin filaments, and can sever filaments and accelerate depolymerization. Through filament turnover, cofilin generates new barbed ends that promote localized actin polymerization, supporting processes such as cell migration and endocytosis.

Regulation of cofilin activity is largely controlled by phosphorylation at serine 3. Phosphorylation by LIM kinases

Cofilin is essential for normal development in many organisms and plays key roles in neuronal morphology and

(LIMK1/2)
inactivates
cofilin
and
reduces
binding
to
actin,
while
dephosphorylation
by
SSH
phosphatases
or
chronophin
reactivates
it.
In
its
inactive
form,
phosphorylated
cofilin
can
be
sequestered
by
14-3-3
proteins.
Upstream
signals
from
Rho
family
GTPases—including
Rho,
Rac,
and
Cdc42—coordinate
LIMK
activity
via
kinases
such
as
ROCK
and
PAK,
linking
external
cues
to
actin
remodeling.
plasticity,
immune
cell
motility,
and
epithelial
cell
migration.
Dysregulation
of
cofilin
activity
is
associated
with
pathological
states,
including
cancer
cell
invasion
and
certain
neurological
conditions,
reflecting
its
central
role
in
active
remodeling
of
the
cytoskeleton.