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sclerostin

Sclerostin is a secreted glycoprotein produced primarily by osteocytes in bone. It is encoded by the SOST gene. Sclerostin functions as an inhibitor of the Wnt signaling pathway in bone, thereby suppressing bone formation.

Mechanism: Sclerostin binds to LRP5/6 co-receptors on osteoblasts, antagonizing canonical Wnt signaling and reducing osteoblast proliferation

Clinical relevance: Mutations that reduce sclerostin activity cause sclerosteosis and van Buchem disease, rare conditions with

Expression and measurement: Sclerostin is detected in circulation and can serve as a biomarker of bone metabolism

and
activity.
By
restraining
osteoblast
function,
it
helps
regulate
bone
formation
and
remodeling.
Mechanical
loading
lowers
sclerostin
expression,
while
unloading
or
disuse
increases
it.
progressive
high
bone
mass.
Conversely,
pharmacologic
inhibition
of
sclerostin
with
monoclonal
antibodies
(for
example
romosozumab)
stimulates
bone
formation,
increases
bone
mineral
density,
and
reduces
fracture
risk
in
osteoporosis,
though
safety
considerations
remain.
in
some
settings.
Its
levels
reflect
bone
mass,
aging,
and
response
to
therapy.
The
biology
of
sclerostin
continues
to
be
explored
in
relation
to
vascular
biology
and
mechanotransduction.