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adherens

Adherens junctions, or adherens, are cell–cell junctions that mechanically couple the actin cytoskeleton of adjacent cells. In epithelial tissues they form a belt-like structure called the zonula adherens just below tight junctions and help maintain tissue integrity and coordinate cell movements during morphogenesis.

Classical adherens junctions are defined by transmembrane cadherins, most notably E-cadherin in epithelia, which engage in

Functions include providing tensile strength, enabling cell sorting, and facilitating tissue remodeling during development and wound

Adherens junctions are distinct from desmosomes, which connect cells via intermediate filaments through desmosomal cadherins. However,

In addition to their adhesive role, beta-catenin can participate in Wnt signaling when released from cadherin

homophilic,
calcium-dependent
adhesion.
The
cadherin
cytoplasmic
tails
bind
catenins
(beta-catenin
and
p120-catenin),
which
link
to
the
actin
cytoskeleton
through
alpha-catenin
and
other
actin-binding
proteins
such
as
vinculin.
The
complex
is
dynamic
and
regulated
by
calcium
levels,
phosphorylation,
endocytosis,
and
remodeling
of
the
actin
network.
healing.
Adherens
junctions
work
with
tight
junctions
to
establish
epithelial
polarity
and
are
involved
in
morphogenetic
movements.
They
are
dynamic
structures
that
undergo
turnover
and
recycling
of
cadherins
in
response
to
mechanical
and
signaling
cues.
both
types
contribute
to
tissue
cohesion.
Downregulation
or
loss
of
E-cadherin
is
associated
with
epithelial-to-mesenchymal
transition,
enabling
cells
to
detach
and
migrate
during
development
and
cancer
progression.
complexes,
linking
cell–cell
adhesion
to
transcriptional
regulation
and
development.