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metalloprotease

Metalloproteases are proteolytic enzymes that require a metal ion, most commonly zinc, at their active site to catalyze the hydrolysis of peptide bonds. In many zinc-dependent proteases, a water molecule coordinated by the metal is activated to perform a nucleophilic attack on the peptide bond. The catalytic core often includes a conserved motif such as HEXXH, with the metal coordinated by histidine residues and a third ligand, enabling proteolysis.

These enzymes are diverse and broadly distributed, occurring as soluble secreted proteins or as membrane-associated enzymes.

Functions of metalloproteases include remodeling of the extracellular matrix during development, wound healing, and angiogenesis, as

Regulation is multilayered, involving zymogen activation, endogenous inhibitors such as tissue inhibitors of metalloproteinases (TIMPs), cellular

They
are
grouped
into
several
families,
including
the
metzincins
(which
encompasses
many
matrix
metalloproteinases,
MMPs),
ADAMs
(a
disintegrin
and
metalloproteinases)
and
ADAMTSs
(ADAMTS),
and
astacins.
Bacterial
zinc
metalloproteases,
such
as
thermolysin,
are
related
enzymes
found
in
various
microorganisms.
Many
MMPs
possess
a
propeptide
domain
that
keeps
them
inactive
until
removal
of
the
propeptide,
and
several
have
a
hemopexin-like
C-terminal
domain
that
influences
substrate
specificity.
Membrane-type
MMPs
(MT-MMPs)
are
anchored
to
the
cell
surface.
well
as
processing
cytokines
and
receptors.
Dysregulated
activity
is
linked
to
pathological
processes
such
as
cancer
invasion
and
metastasis,
arthritis,
and
neurodegenerative
conditions.
localization,
and,
in
many
cases,
specific
tissue
expression.
Therapeutic
targeting
has
faced
challenges
due
to
compensatory
mechanisms
and
side
effects,
but
selective
inhibitors
and
targeted
delivery
are
areas
of
ongoing
research.
Examples
include
MMP-2
and
MMP-9
(gelatinases)
and
MT1-MMP
(MMP-14).