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autophagi

Autophagy is a conserved cellular degradation process that delivers cytoplasmic components to lysosomes for breakdown and recycling. It supports cellular homeostasis, adapts to nutrient stress, and participates in development, immunity, and aging. The term autophagi is an infrequently used plural form found in some texts, but autophagy is the standard term for the process.

There are three main forms of autophagy. Macroautophagy, usually referred to simply as autophagy, involves the

Regulation of autophagy is driven by nutrient and stress signals. The process is controlled by autophagy-related

Biological roles of autophagy include cellular quality control, energy balance during starvation, and defense against infections.

formation
of
a
double-membrane
autophagosome
that
sequesters
cargo
and
fuses
with
lysosomes
for
degradation.
Microautophagy
entails
direct
engulfment
of
cytosolic
material
by
the
lysosome
through
membrane
invagination.
Chaperone-mediated
autophagy
uses
unfolded
substrate
proteins
that
are
recognized
by
chaperones
and
translocated
across
the
lysosomal
membrane
via
the
LAMP-2A
receptor.
Autophagy
can
be
non-selective,
or
selective
for
particular
cargo
such
as
damaged
mitochondria
(mitophagy),
ribosomes
(ribophagy),
or
invasive
pathogens
(xenophagy).
(ATG)
genes
and
a
signaling
network
centered
on
mTOR,
which
inhibits
initiation
in
nutrient-rich
conditions.
Under
starvation
or
stress,
AMPK
activation
and
ULK1
complex
induction
promote
autophagosome
formation
via
class
III
PI3K
(Beclin-1–VPS34)
signaling,
with
LC3
becoming
conjugated
to
the
growing
membrane.
Cargo
selection
often
involves
adaptor
proteins
like
p62/SQSTM1.
It
is
implicated
in
development,
aging,
neurodegenerative
diseases,
cancer,
and
immune
responses.
While
generally
cytoprotective,
excessive
or
dysregulated
autophagy
can
contribute
to
pathology
or
cell
death
in
certain
contexts.