http://stroke.ahajournals.org/content/47/Suppl_1/ATP278.short
+ Author Affiliations
Abstract
Introduction: Tissue
plasminogen activator (tPA) remains the only approved pharmacologic
treatment for patients with ischemic stroke. Although
intravenous thrombolysis improves outcome in a
subset of patients, tPA also increases symptomatic hemorrhage and
worsens brain
edema, thus limiting its clinical applicability.
Among several putative mechanisms, plasmin-meditated complement cascade
activation
likely plays a critical role in the deleterious
effects of tPA.
Hypothesis: tPA administration promotes C3 cleavage and complement activation in ischemic brain, and pharmacologic inhibition of the
C3a receptor abrogates tPA-mediated hemorrhage and brain edema following reperfused stroke.
Methods: C3a
concentrations were assessed using ELISA. Transient focal cerebral
ischemia was induced in mice by 60 minutes of middle
cerebral artery occlusion (MCAO), with tPA
(10mg/kg) or saline injected intravenously at reperfusion. C3a receptor
antagonist
(1mg/kg) or vehicle was administered 45 minutes
prior to MCAO. Infarct volume was determined at 24 hours by TTC
staining,
neurological function was assessed on a 5-point
scale, and brain hemorrhage was quantified using a spectrophotometric
assay.
Cerebral edema was determined by calculating the
difference in volume between ischemic and non-ischemic hemispheres and
normalized
to infarct volume.
Results: The
incubation of tPA with native C3 as well as plasma promotes the
generation of C3a. Similarly, intravenous tPA administration
dramatically increases cerebral C3a levels in
the ischemic hemisphere following MCAO. Intravenous tPA significantly
reduces
infarct volume (p<0.05) and improves
neurological function (p<0.05) in our stroke model. However, tPA also
dramatically increases
cerebral hemorrhage (p<0.05) and relative
cerebral edema (p<0.05). Administration of a C3a receptor antagonist
abrogates this
hemorrhagic conversion (p<0.05) and brain
edema (p<<0 .05="" p="">
Conclusions:
Intravenous tPA administration promotes complement activation through C3
cleavage in ischemic brain. Pharmacologic inhibition
of the C3a receptor protects against the
deleterious side effects of tPA and represents a promising therapeutic
strategy for
stroke patients
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