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Fada

FadA, short for Fusobacterium adhesion A, is a virulence-associated adhesin produced by Fusobacterium nucleatum, a Gram-negative bacterium commonly found in the human oral microbiome. As a surface-exposed protein, FadA functions as an adhesin and contributes to the bacterium’s ability to attach to host cells and establish infection.

In host cells, FadA mediates adhesion to epithelial surfaces and promotes invasion. The protein interacts with

Biologically, FadA plays a role in oral biofilm formation and interbacterial interactions, aiding colonization and community

Research on FadA continues to explore its structure, regulation, and potential as a therapeutic target. Understanding

E-cadherin,
a
key
component
of
adherens
junctions,
leading
to
disruption
of
cell–cell
contacts
and
activation
of
signaling
pathways.
This
engagement
can
trigger
beta-catenin–dependent
transcription
and
related
inflammatory
responses,
with
downstream
effects
on
gene
expression
and
cellular
behavior.
Experimental
evidence
indicates
that
FadA
can
modulate
pathways
such
as
Wnt/beta-catenin
and
NF-κB,
contributing
to
an
inflammatory
environment
and
increased
cellular
permeability.
development
within
dental
plaque.
Beyond
the
oral
cavity,
FadA-expressing
F.
nucleatum
has
been
investigated
for
associations
with
colorectal
cancer
and
other
diseases,
where
laboratory
studies
suggest
the
adhesin
may
enhance
tumor
cell
proliferation,
inflammation,
and
tissue
invasion.
However,
the
extent
of
causality
in
humans
remains
an
area
of
active
research,
and
findings
are
interpreted
within
a
broader
context
of
microbial
and
host
factors.
how
FadA
contributes
to
adhesion
and
signaling
helps
illuminate
mechanisms
of
Fusobacterium
nucleatum–related
pathology
and
points
to
strategies
to
mitigate
bacterial
colonization
and
associated
inflammation.