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caveolina

Caveolins are a family of integral membrane proteins that are the principal components of caveolae, which are small, flask-shaped invaginations of the plasma membrane found in many vertebrate cell types. In mammals, the three main isoforms are caveolin-1 (Cav-1), caveolin-2 (Cav-2), and caveolin-3 (Cav-3). Cav-1 and Cav-2 are widely expressed in non-muscle cells, whereas Cav-3 is primarily expressed in skeletal and cardiac muscle. Caveolins assemble with cavin proteins to form the caveolar coat that shapes caveolae and organizes signaling platforms at the membrane.

Structure and function: Caveolins are characterized by a hydrophobic membrane-spanning region, a long cytoplasmic tail, and

Clinical relevance: Altered expression or function of caveolins is associated with various diseases. Changes in Cav-1

Evolution and genetics: Caveolin genes are conserved across vertebrates and contribute to the organization of membrane

a
conserved
caveolin
scaffolding
domain
(CSD),
roughly
residues
82–101
in
Cav-1,
which
binds
and
modulates
multiple
signaling
proteins,
including
G-protein
subunits
and
Src
family
kinases.
This
arrangement
helps
regulate
signal
transduction
pathways
and
lipid
metabolism.
Caveolae
also
serve
as
membrane
reservoirs
that
buffer
tension
and
participate
in
endocytosis
and
transcytosis
independent
of
clathrin-mediated
routes.
and
Cav-2
levels
are
observed
in
cancer
and
metabolic
disorders
such
as
obesity
and
insulin
resistance,
while
Cav-3
mutations
can
cause
muscular
dystrophy
and
related
myopathies.
Caveolae
dysfunction
has
also
been
implicated
in
certain
cardiovascular
and
pulmonary
conditions.
microdomains
that
coordinate
signaling,
trafficking,
and
lipid
homeostasis.