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Summary. In
addition to its well-characterized
effects in the acute
inflammatory and
allergic responses,
histamine has been
shown to affect
chronic inflammation
and regulate several
essential events in
the immune response.
Histamine can
selectively recruit
the major effector
cells into tissue
sites and affect
their maturation,
activation,
polarization, and
effector functions
leading to chronic
inflammation. On the
other hand histamine
acting through its
receptor (HR) type 2
positively
interferes with the
peripheral antigen
tolerance induced by
T regulatory (Treg)
cells in several
pathways. Histamine
also regulates
antigen-specific TH1
and TH2 cells, as
well as related
antibody isotype
responses. These
findings provide
suitable explanation
for the observations
in the experimental
model of asthma
showing that
allergic
inflammatory
responses and
bronchial
hyperresponsiveness
may be susceptible
to HR1 blockade.
Apparently, the
various effects of
histamine on immune
regulation are due
to differential
expression and
regulation of 4
histamine receptors
and their distinct
intracellular
signals. In addition,
differences in
affinities of these
receptors is highly
decisive on the
biological effects
of histamine and
drugs that target
histamine receptors.
This article
highlights novel
discoveries in
histamine
immunobiology and
discusses their
relevance to the
allergic
inflammatory
responses.
Key words:
Histamine, Histamine
receptors, T cells,
T regulatory cells,
Tolerance, Dendritic
cells, Antibodies,
Allergy, Airway
function. |
