Neuronal Protection in Stroke by an [sLe.sup.x]-Glycosylated Complement Inhibitory Protein

Neuronal Protection in Stroke by an [sLe.sup.x]-Glycosylated Complement Inhibitory Protein

Glycoprotein adhesion receptors such as selectins contribute to tissue injury in stroke. Ischemic neurons strongly expressed C1q, which may target them for complement-mediated attack or C1qRp-mediated clearance. A hybrid molecule was used to simultaneously inhibit both complement activation and sele...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 1999-07, Vol.285 (5427), p.595-595
Hauptverfasser: Huang, Judy, Kim, Louis J, Mealey, Richard, Marsh, Henry C. Jr, Zhang, Yuan, Tenner, Andrea J, Connolly, Jr., E. Sander, Pinsky, David J
Format: Artikel
Sprache:eng
Schlagworte:
Care and treatment
Cerebrovascular disease
Cerebrovascular disorders
Physiological aspects
Stroke
Stroke (Disease)
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Zusammenfassung:Glycoprotein adhesion receptors such as selectins contribute to tissue injury in stroke. Ischemic neurons strongly expressed C1q, which may target them for complement-mediated attack or C1qRp-mediated clearance. A hybrid molecule was used to simultaneously inhibit both complement activation and selectin-mediated adhesion. The extracellular domain of soluble complement receptor-1 (sCR1) was sialyl Lewis x glycosylated (sCR1[sLe.sup.x]) to inhibit complement activation and endothelial-platelet-leukocyte interactions, sCR1 and sCR1[sLe.sup.x] colocalized to ischemic cerebral microvessels and C1q-expressing neurons, inhibited neutrophil and platelet accumulation, and reduced cerebral infarct volumes. Additional benefit was conferred by sialyl Lewis x glycosylation of the unmodified parent sCR1 molecule.
ISSN:0036-8075
1095-9203