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exocytose

Exocytosis, also spelled exocytose, is a cellular process in which vesicles within the cell fuse with the plasma membrane to release their contents into the extracellular space. It also adds membrane to the plasma membrane and delivers membrane proteins and lipids. Exocytosis is essential for processes such as neurotransmitter and hormone secretion, digestive enzyme release, and immune cell functions.

Vesicles are trafficked to the plasma membrane and docked by tethering factors. Fusion is driven by SNARE

There are two main modes of exocytosis. Constitutive exocytosis proceeds continuously and does not require a

Exocytosis plays a foundational role in cell-to-cell communication and organismal homeostasis. Disruptions in exocytotic machinery can

proteins,
with
v-SNAREs
on
the
vesicle
pairing
with
t-SNAREs
on
the
target
membrane
to
form
a
SNARE
complex
that
brings
membranes
into
close
apposition
and
initiates
fusion.
In
vertebrates,
typical
v-SNAREs
include
synaptobrevin/VAMP,
while
t-SNAREs
include
syntaxin
and
SNAP-25.
Regulatory
proteins
such
as
Rab
GTPases
and
SM
family
members
(for
example
Munc18)
modulate
docking
and
priming,
and
the
SNARE
complex
is
disassembled
afterward
by
NSF
and
alpha-SNAP.
Ca2+
signal,
supporting
membrane
turnover
and
steady
delivery
of
cargo.
Regulated
exocytosis
is
triggered
by
elevations
in
intracellular
Ca2+,
occurring
in
neurons,
endocrine
cells,
and
other
secretory
cells,
where
secretory
granules
release
their
contents
in
response
to
specific
stimuli.
Ca2+
acts
as
a
key
trigger
in
many
fast,
regulated
secretion
pathways
via
Ca2+-sensing
proteins
such
as
synaptotagmin.
contribute
to
diseases
including
diabetes,
neurodegenerative
disorders,
and
immune
dysfunction.