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cellstress

Cellstress, or cellular stress, refers to conditions that disturb normal cellular function and threaten homeostasis. In response, cells activate conserved stress signaling networks designed to restore equilibrium, limit damage, and decide between repair, adaptation, or controlled cell death.

Key mediators include the unfolded protein response (UPR) in the endoplasmic reticulum, the mitochondrial unfolded protein

Stress can arise from hypoxia, nutrient deprivation, reactive oxygen species, toxins, pathogens, mechanical injury, DNA damage,

Outcomes range from repair and temporary cell-cycle arrest to apoptosis or senescence when damage is irreparable.

Researchers study cellstress using gene expression profiling, proteomics, imaging of stress markers, reporter assays, and functional

response
(mtUPR),
the
integrated
stress
response
(ISR),
the
heat
shock
response,
and
counters
to
oxidative
stress.
Central
regulators
such
as
PERK,
IRE1,
and
ATF6
in
the
UPR;
ATF4
and
CHOP
in
ISR;
HSF1
in
the
heat
shock
response;
and
NRF2
in
oxidative
stress
coordinate
transcriptional
and
translational
changes.
Stress
granules
and
autophagy
participate
in
managing
damaged
proteins
and
organelles
during
stress.
or
age-related
declines
in
proteostasis.
Acute
stresses
may
be
resolved
quickly,
while
chronic
or
repeated
stress
can
exhaust
adaptive
capacity
and
contribute
to
disease.
Chronic
cellular
stress
is
linked
to
aging
and
to
diseases
such
as
cancer,
neurodegeneration,
metabolic
disorders,
and
inflammatory
conditions,
highlighting
the
importance
of
proteostasis
and
energy
regulation
in
health.
assays
for
autophagy,
protein
aggregation,
and
mitochondrial
function.
Understanding
cellular
stress
responses
informs
approaches
to
mitigate
damage
in
disease
and
improve
stress
tolerance
in
biotechnology.