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NODlike

NOD-like receptors, or NLRs, are intracellular pattern recognition receptors of the innate immune system that detect bacterial, viral, and cellular stress signals. They respond to pathogen-associated and danger-associated molecular patterns and regulate inflammation, autophagy, and cell death.

NLRs share a conserved architecture that includes a central NACHT (NOD) domain required for oligomerization, a

The best-characterized NOD-like receptors NOD1 and NOD2 detect peptidoglycan fragments, iE-DAP and muramyl dipeptide respectively. Upon

Several NLRs, especially the NLRP subfamily, function as inflammasome sensors. They assemble with the adaptor ASC

Notable members include NLRP3, NLRP1, NLRC4, NOD1, NOD2, CIITA (NLRA), and NAIPs. They regulate immune responses

Dysregulation or mutations in NLRs are linked to autoinflammatory and autoimmune diseases, including CAPS (NLRP3) and

C-terminal
leucine-rich
repeat
(LRR)
domain
for
sensing
ligands,
and
an
N-terminal
effector
region
that
varies
among
family
members
(CARD
in
some,
PYD
in
others).
Based
on
these
domains,
they
are
grouped
into
subfamilies
such
as
NLRA,
NLRB,
NLRC,
and
NLRP,
plus
NAIPs.
sensing
ligands,
they
recruit
the
kinase
RIPK2
via
CARD-CARD
interactions,
leading
to
activation
of
NF-κB
and
MAPK
pathways
and
transcription
of
inflammatory
genes.
and
caspase-1
to
process
pro-IL-1β
and
pro-IL-18
into
their
active
forms
and
can
trigger
pyroptotic
cell
death
in
response
to
danger
signals.
to
pathogens
and
sterile
stress,
and
influence
autophagy
and
epithelial
barrier
functions.
Crohn’s
disease
(NOD2).
Therapeutic
approaches
target
NLR
signaling,
with
NLRP3
inhibitors
in
development.