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kinins

Kinins are a family of small peptide mediators involved in inflammation, pain, and cardiovascular regulation. Bradykinin is the best-known kinin, with kallidin (lys-bradykinin) and related peptides also active. They are generated from kininogens by the kallikrein–kinin system.

Kininogens are plasma glycoproteins produced mainly by the liver. Plasma kallikrein cleaves high-molecular-weight kininogen to bradykinin,

Kinins exert most effects through kinin receptors. Bradykinin and kallidin bind primarily to the B2 receptor,

Clinical relevance includes disorders tied to excessive kinins. Hereditary angioedema, often due to deficiency of C1

while
tissue
kallikrein
cleaves
low-molecular-weight
kininogen
to
kallidin,
which
can
be
converted
to
bradykinin
by
aminopeptidases.
The
contact
system,
involving
factor
XII
and
prekallikrein,
can
activate
kallikrein
upon
contact
with
negatively
charged
surfaces.
Kinins
are
rapidly
inactivated
by
kininases,
including
kininase
II
(angiotensin-converting
enzyme)
and
various
aminopeptidases,
giving
them
a
short
half-life.
which
is
constitutively
expressed;
B1
receptors
are
inducible
during
inflammation
and
respond
to
des-Arg9-bradykinin.
Receptor
activation
promotes
vasodilation
via
nitric
oxide
and
prostacyclin,
increases
vascular
permeability
leading
to
edema,
and
directly
stimulates
sensory
nerves
to
produce
pain.
Bronchoconstriction
and
smooth
muscle
effects
can
also
occur
in
certain
contexts.
esterase
inhibitor,
involves
excessive
bradykinin
and
swelling.
Angioedema
can
also
be
a
side
effect
of
ACE
inhibitors,
which
raise
bradykinin
levels.
Therapies
targeting
the
kallikrein–kinin
system—such
as
B2
receptor
antagonists
(e.g.,
icatibant),
kallikrein
inhibitors
(e.g.,
ecallantide),
and
C1
esterase
inhibitors—are
used
in
conditions
like
hereditary
angioedema.