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exocytotic

Exocytotic refers to the processes and machinery involved in exocytosis, the cellular mechanism by which substances are expelled from the cell. During exocytotic secretion, vesicles derived from the Golgi apparatus or endosomes fuse with the plasma membrane to release their lumenal contents into the extracellular space. Exocytotic activity contrasts with endocytosis, which internalizes material from the outside.

Mechanism: Vesicles approach the plasma membrane, dock, and become primed for fusion. Fusion is triggered by

Exocytosis operates in two main modes. Constitutive exocytosis occurs continuously to maintain membrane and extracellular matrix

Physiological roles include neurotransmission, hormone secretion (e.g., insulin), delivery of enzymes to the extracellular space, and

Clinical relevance: Defects in exocytotic pathways, SNARE function, or calcium signaling can contribute to disease, including

a
rise
in
intracellular
calcium
and
is
mediated
by
SNARE
proteins:
v-SNAREs
on
the
vesicle
(such
as
synaptobrevin/VAMP)
pairing
with
t-SNAREs
on
the
target
membrane
(such
as
syntaxin
and
SNAP-25).
Accessory
proteins,
including
synaptotagmin
as
a
calcium
sensor
and
Rab
family
GTPases,
regulate
trafficking
and
docking.
The
fusion
merges
the
vesicle
and
plasma
membranes,
releasing
contents
and
adding
membrane
to
the
surface.
turnover,
while
regulated
exocytosis
occurs
in
response
to
specific
stimuli,
enabling
rapid
release
of
neurotransmitters,
hormones,
and
enzymes
in
neurons
and
endocrine
cells.
the
release
of
immune
mediators.
Materials
can
be
stored
in
secretory
granules
before
release;
membrane
components
are
replenished
after
fusion.
impaired
insulin
secretion
in
diabetes
and
disrupted
neurotransmitter
release
in
certain
neurological
disorders.
Toxins
such
as
botulinum
and
tetanus
target
SNAREs,
inhibiting
exocytosis.