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Sema3As

SEMA3A, or semaphorin-3A, is a secreted member of the class 3 semaphorins that functions as a guidance cue during development and in various physiological processes. It is encoded by the SEMA3A gene and is produced as a soluble protein that can influence the movement and behavior of neighboring cells.

SEMA3A signals through receptor complexes that typically include neuropilin-1 (NRP1) and one or more plexins, especially

Beyond the nervous system, SEMA3A influences non-neural tissues by modulating angiogenesis and immune cell behavior. It

Expression of SEMA3A is tightly regulated during development and in adulthood. Disturbances in SEMA3A signaling have

PLXNA1,
with
other
plexins
(PLXNA2-4)
capable
of
involvement
in
certain
contexts.
Binding
of
SEMA3A
to
these
receptors
activates
intracellular
signaling
cascades
that
regulate
the
cytoskeleton,
leading
to
growth
cone
collapse
and
repulsive
guidance
in
developing
neurons.
This
signaling
also
impacts
dendritic
morphology
and
the
migration
of
various
cell
types,
including
interneurons
in
the
brain.
can
exert
anti-angiogenic
effects
by
repelling
endothelial
cells
and
altering
vascular
patterning.
In
the
immune
system,
SEMA3A
can
affect
leukocyte
migration
and
activation,
contributing
to
immune
regulation.
The
role
of
SEMA3A
in
cancer
is
context-dependent,
with
evidence
for
both
tumor-suppressive
and
tumor-promoting
effects
depending
on
receptor
expression
and
tissue
environment.
been
linked
to
neurodevelopmental
abnormalities
in
experimental
models,
and
ongoing
research
investigates
its
potential
in
nerve
regeneration,
immune
modulation,
and
cancer
therapy.