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sequestosome

Sequestosome is a cytoplasmic inclusion formed in response to cellular stress that functions to sequester polyubiquitinated proteins for degradation by autophagy. The term often refers to p62 bodies, which are largely composed of the autophagy receptor p62/SQSTM1 (sequestosome 1).

p62 contains several domains: a PB1 domain that mediates self-oligomerization, a ubiquitin-associated (UBA) domain that binds

Sequestosomes form by phase separation and are dynamic structures; they enlarge when autophagy is inhibited and

Functionally, they contribute to selective autophagy (aggrephagy), facilitating clearance of misfolded proteins and damaged organelles; p62

Clinical significance: p62-containing inclusions accumulate in several neurodegenerative disorders where autophagy is compromised, such as Alzheimer's

See also: autophagy, ubiquitin-proteasome system, SQSTM1.

polyubiquitin
chains,
and
a
LC3-interacting
region
(LIR)
that
connects
cargo
to
the
autophagosome
via
LC3.
Through
these
interactions,
p62
links
ubiquitinated
substrates
to
the
autophagy
machinery.
Additional
receptors
such
as
NBR1
and
OPTN
can
participate
in
cargo
recognition.
tend
to
dissolve
when
autophagic
flux
resumes.
can
also
influence
signaling
pathways,
including
KEAP1–NRF2
and
NF‑κB,
linking
proteostasis
to
cellular
stress
responses.
disease,
Parkinson's
disease,
and
ALS/FTD.
Mutations
in
SQSTM1
cause
Paget
disease
of
bone
type
4
and
can
be
associated
with
motor
neuron
disease.
Due
to
its
role
as
an
autophagy
adaptor,
p62
levels
and
the
presence
of
sequestosome-like
structures
are
used
as
indicators
of
autophagic
flux
in
research
and
pathology.