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nonopsonic

Nonopsonic refers to mechanisms of recognition and uptake by phagocytes that do not require opsonins—molecules such as antibodies or complement components—that tag pathogens to promote phagocytosis. In contrast to opsonophagocytosis, nonopsonic uptake relies on direct interactions between phagocyte receptors and microbial surfaces or particles.

The nonopsonic pathway is mediated by pattern recognition receptors and related surface receptors on phagocytes. Key

Nonopsonic uptake can be particularly important when opsonins are scarce or during initial stages of infection,

Clinical and research relevance includes the role of nonopsonic recognition in defense against certain fungi and

players
include
toll-like
receptors,
C-type
lectin
receptors
such
as
dectin-1
and
the
mannose
receptor,
and
scavenger
receptors
such
as
SR-A
and
MARCO.
These
receptors
recognize
conserved
microbial
patterns
or
surface
features,
enabling
ingestion
without
antibody
or
complement
tagging.
Nonopsonic
recognition
can
initiate
phagocytosis
and
subsequent
phagosome
maturation,
leading
to
microbial
killing
through
reactive
oxygen
and
nitrogen
species
and
lysosomal
enzymes.
or
at
mucosal
surfaces
where
antibody
levels
may
be
limited.
The
efficiency
and
specificity
of
nonopsonic
phagocytosis
vary
with
the
receptor
involved
and
the
nature
of
the
particle,
and
it
often
operates
in
concert
with,
rather
than
in
opposition
to,
opsonin-mediated
pathways.
bacteria
and
the
consequences
of
deficiencies
in
PRR
signaling.
Understanding
nonopsonic
pathways
informs
approaches
to
enhance
immune
responses,
design
vaccines,
and
develop
therapies
targeting
pathogens
that
evade
opsonization.
See
also
opsonization,
phagocytosis,
pattern
recognition
receptors.