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neurofilaments

Neurofilaments are a major class of intermediate filaments that form part of the cytoskeleton of neurons, with a particular abundance in axons. They help give axons their structural integrity and influence their diameter, which in turn affects nerve conduction velocity. In vertebrates the core subunits are neurofilament light (NF-L), medium (NF-M), and heavy (NF-H). Alpha-internexin can form heteropolymers with NF-L and NF-M, and peripheral neurons may express additional intermediate filament proteins such as peripherin. Neurofilaments assemble from these subunits into 10-nanometer-diameter filaments that feature a central rod domain and long, largely unstructured tail domains, especially in NF-M and NF-H.

Functions of neurofilaments include providing mechanical support for long axons, contributing to axonal caliber, and organizing

In disease and clinical research, abnormal accumulation or disorganization of neurofilaments is observed in several neurodegenerative

Genes encoding neurofilament proteins include NEFL (NF-L), NEFM (NF-M), and NEFH (NF-H). Mutations can disrupt filament

the
axonal
cytoskeleton
to
facilitate
efficient
transport
of
organelles
and
vesicles.
They
interact
with
microtubules,
actin,
and
various
motor
and
adaptor
proteins
to
coordinate
cytoskeletal
dynamics
and
cargo
movement
along
the
axon.
Post-translational
modifications,
notably
phosphorylation
of
the
tail
domains
of
NF-H
and
NF-M,
influence
filament
spacing,
interactions
with
other
cytoskeletal
elements,
and
the
rate
of
axonal
transport,
contributing
to
the
maturation
and
maintenance
of
neurons.
conditions.
The
light
chain
(NfL)
is
released
into
cerebrospinal
fluid
and
blood
following
axonal
injury,
and
its
levels
serve
as
a
biomarker
for
neuronal
damage
and
disease
progression
in
disorders
such
as
amyotrophic
lateral
sclerosis
and
other
neurodegenerative
diseases.
assembly
and
axonal
function,
contributing
to
neuropathies.