BACKGROUND: A growing number of recent investigations have established a critical role for leukocytes in propagating tissue damage after ischemia and reperfusion in stroke. Experimental data obtained from animal models of middle cerebral artery occlusion implicate inflammatory cell adhesion molecules, chemokines, and cytokines in the pathogenesis of this ischemic damage. METHODS: Data from recent animal and human studies were reviewed to demonstrate that inflammatory events occurring at the blood-endothelium interface of the cerebral capillaries underlie the resultant ischemic tissue damage. RESULTS: After arterial occlusion, the up-regulated expression of cytokines including IL-1, and IL-6 act upon the vascular endothelium to increase the expression of intercellular adhesion molecule-1, P-selectin, and E-selectin, which promote leukocyte adherence and accumulation. Integrins then serve to structurally modify the basal lamina and extracellular matrix. These inflammatory signals then promote leukocyte transmigration across the endothelium and mediate inflammatory cascades leading to further cerebral infarction. CONCLUSIONS: Inflammatory interactions that occur at the blood-endothelium interface, involving cytokines, adhesion molecules, chemokines and leukocytes, are critical to the pathogenesis of tissue damage in cerebral infarction. Exploring these pathophysiological mechanisms underlying ischemic tissue damage may direct rational drug design in the therapeutic treatment of stroke.
BACKGROUND: A growing number of recent investigations have established a critical role for leukocytes in propagating tissue damage after ischemia and reperfusion in stroke. Experimental data obtained from animal models of middle cerebral artery occlusion implicate inflammatory cell adhesion molecules, chemokines, and cytokines in the pathogenesis of this ischemic damage. METHODS: Data from recent animal and human studies were reviewed to demonstrate that inflammatory events occurring at the blood-endothelium interface of the cerebral capillaries underlie the resultant ischemic tissue damage. RESULTS: After arterial occlusion, the up-regulated expression of cytokines including IL-1, and IL-6 act upon the vascular endothelium to increase the expression of intercellular adhesion molecule-1, P-selectin, and E-selectin, which promote leukocyte adherence and accumulation. Integrins then serve to structurally modify the basal lamina and extracellular matrix. These inflammatory signals then promote leukocyte transmigration across the endothelium and mediate inflammatory cascades leading to further cerebral infarction. CONCLUSIONS: Inflammatory interactions that occur at the blood-endothelium interface, involving cytokines, adhesion molecules, chemokines and leukocytes, are critical to the pathogenesis of tissue damage in cerebral infarction. Exploring these pathophysiological mechanisms underlying ischemic tissue damage may direct rational drug design in the therapeutic treatment of stroke.
Authors: Gabriel Courties; Fanny Herisson; Hendrik B Sager; Timo Heidt; Yuxiang Ye; Ying Wei; Yuan Sun; Nicolas Severe; Partha Dutta; Jennifer Scharff; David T Scadden; Ralph Weissleder; Filip K Swirski; Michael A Moskowitz; Matthias Nahrendorf Journal: Circ Res Date: 2014-10-31 Impact factor: 17.367
Authors: Qing Lu; Thomas F Rau; Valerie Harris; Maribeth Johnson; David J Poulsen; Stephen M Black Journal: Eur J Neurosci Date: 2011-09-21 Impact factor: 3.386
Authors: Yingfang Tian; Boryana Stamova; Glen C Jickling; Dazhi Liu; Bradley P Ander; Cheryl Bushnell; Xinhua Zhan; Ryan R Davis; Piero Verro; William C Pevec; Nasim Hedayati; David L Dawson; Jane Khoury; Edward C Jauch; Arthur Pancioli; Joseph P Broderick; Frank R Sharp Journal: J Cereb Blood Flow Metab Date: 2011-12-14 Impact factor: 6.200
Authors: Christopher D d'Esterre; Kenneth M Tichauer; Richard I Aviv; Wolfgang Eisert; Ting-Yim Lee Journal: Transl Stroke Res Date: 2011-01-11 Impact factor: 6.829
Authors: Andre D Kumar; Amelia K Boehme; James E Siegler; Michael Gillette; Karen C Albright; Sheryl Martin-Schild Journal: J Stroke Cerebrovasc Dis Date: 2012-09-30 Impact factor: 2.136