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profilin

Profilin is a small actin-binding protein that regulates actin dynamics in eukaryotic cells. It binds monomeric actin (G-actin), sequestering it away from spontaneous nucleation, and facilitates the exchange of ADP for ATP on G-actin. In the presence of actin nucleators such as formins and other proline-rich proteins, profilin delivers ATP-actin monomers to growing barbed ends, promoting filament elongation. Profilin also binds to poly-L-proline sequences found in many actin regulators and signaling proteins, functioning as a hub that coordinates cytoskeletal remodeling with signaling pathways. It also interacts with phosphatidylinositol 4,5-bisphosphate (PIP2) at membranes, which can regulate profilin’s activity and localization by modulating its interaction with actin monomers.

In humans, the profilin family comprises several isoforms, with PFN1 and PFN2 being the best characterized.

Biological importance and clinical relevance: Profilin participates in cell motility, endocytosis, and development. Genetic disruption can

Summary: Profilin acts as a key regulator of actin filament turnover and assembly, coordinating cytoskeletal dynamics

PFN1
is
expressed
broadly,
while
PFN2
has
a
more
restricted
tissue
distribution
(e.g.,
brain).
The
proteins
are
about
131–134
amino
acids
long,
with
a
conserved
fold
that
supports
actin
binding
and
proline-rich
motif
interactions.
Profilin
is
essential
for
normal
cytoskeletal
dynamics
and
is
conserved
across
many
eukaryotes,
from
yeast
to
humans.
cause
cytoskeletal
defects
and
impaired
signaling.
Mutations
in
PFN1
have
been
linked
to
familial
neurodegenerative
conditions
such
as
amyotrophic
lateral
sclerosis
and
related
disorders,
underscoring
profilin’s
role
in
neuronal
structure
and
function.
Altered
profilin
expression
or
function
is
observed
in
various
cancers
and
brain
disorders,
with
effects
depending
on
cellular
context.
with
signaling
through
interactions
with
actin,
proline-rich
ligands,
and
membrane
lipids.