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FcRIIB

Fc gamma receptor IIb (FcγRIIb) is the inhibitory member of the classical Fc gamma receptor family. It binds the Fc portion of IgG antibodies and is encoded by the FCGR2B gene. The receptor is mainly expressed on B cells and on certain myeloid and dendritic cell populations. It functions as a negative regulator of immune activation by dampening signaling through the B cell receptor and other activating receptors on the same cell.

Molecularly, FcγRIIb is a type I membrane protein with two extracellular Ig-like domains and a cytoplasmic tail

Expression and function: In B cells, FcγRIIb modulates activation, differentiation, and antibody production; it is also

Genetics and disease relevance: The FCGR2B gene shows polymorphisms, including the I232T substitution in the transmembrane

Clinical and therapeutic considerations: Modulation of FcγRIIb signaling is being explored to tune immune responses and

containing
an
immunoreceptor
tyrosine-based
inhibitory
motif
(ITIM).
When
FcγRIIb
is
co-engaged
with
Fc
receptors
or
the
BCR
by
immune
complexes,
the
ITIM
is
phosphorylated
and
recruits
phosphatases
such
as
SHIP-1
and
SHP-1,
antagonizing
kinases
that
drive
activation.
This
inhibitory
signal
helps
set
thresholds
for
B
cell
activation
and
promotes
tolerance.
present
on
monocytes,
basophils,
eosinophils,
and
dendritic
cells,
where
it
can
decrease
inflammatory
responses
to
IgG-coated
stimuli.
Engagement
by
immune
complexes
or
therapeutic
IVIG
can
contribute
to
anti-inflammatory
effects.
Defects
or
reduced
expression
of
FcγRIIb
can
predispose
to
autoimmunity
by
allowing
excessive
B
cell
activity
and
autoantibody
generation.
region,
which
impairs
surface
expression
and
inhibitory
signaling
and
has
been
associated
with
increased
risk
of
systemic
lupus
erythematosus
and
other
autoimmune
diseases.
Differences
in
receptor
density
among
individuals
and
cell
types
can
influence
responses
to
antibodies
and
biologic
therapies.
improve
safety
in
antibody
therapies.
Understanding
FcγRIIb
function
helps
explain
variability
in
IVIG
efficacy
and
autoimmune
disease
pathogenesis.