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seneszenter

Seneszenter is the term used to describe cells that have entered cellular senescence, a stable state of cell cycle arrest in which cells no longer divide in response to damage or stress. Seneszenter cells remain metabolically active and often secrete a broad spectrum of factors collectively known as the senescence-associated secretory phenotype (SASP).

Seneszenter arise from various triggers, including telomere shortening, DNA damage, oxidative stress, oncogene activation, and chronic

In aging and disease, seneszenter play dual roles. They help suppress tumor formation and contribute to wound

Detection and study of seneszenter rely on biomarkers such as SA-β-gal activity, p16 expression, and DNA damage

inflammation.
They
are
typically
characterized
by
markers
such
as
p16INK4A
and
p21,
persistent
DNA
damage
foci,
and
increased
activity
of
senescence-associated
beta-galactosidase
under
specific
assay
conditions.
The
SASP
includes
inflammatory
cytokines,
growth
factors,
and
proteases
that
can
influence
neighboring
cells
and
tissue
structure.
healing
and
embryonic
development,
but
their
accumulation
over
time
and
persistent
SASP
can
promote
chronic
inflammation,
tissue
dysfunction,
and
the
progression
of
age-related
diseases
such
as
osteoarthritis,
atherosclerosis,
and
neurodegenerative
conditions.
The
context
and
duration
of
senescence
determine
whether
the
effects
are
beneficial
or
detrimental.
indicators,
often
in
combination
with
transcriptional
and
proteomic
profiles.
Therapeutic
approaches
aim
to
mitigate
harm
from
seneszenter
by
clearing
them
with
senolytics
or
by
modulating
the
SASP
with
senomorphics.
Research
explores
efficacy,
safety,
and
precision
in
targeting
these
cells
across
tissues.