UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intracerebral dendritic cells (DC) have recently been identified in neuroinflammation initiated peripherally by brain-targeted autoimmunity or infection. The present study detects DC in photochemically induced cortical ischemia of the mouse brain, a brain-intrinsic lesion model characterized by the lack of an overt T cell response. Concomitant to leukocyte infiltration of the infarcted area, cells expressing the pan-DC surface marker CD11c appeared at the lesion and persisted for weeks. These DC were located at the border zone of the infarct and remote from the lesion in degenerating corticothalamic fibre tracts and subcortical nuclei. All CD11c+ brain cells displayed a uniform CD11b+/CD8alpha-/CD205- surface phenotype, indicating a myeloid origin, and were immature DC based on their MHC class II+/CD40-/CD80+/CD86+/- profile. By expressing high levels of CD45, most DC from ischemic brain seemed to be blood-derived while a minority were CD45(low), thus corresponding to resident microglia. Consistently, round-shaped CD11c+ cells were found at the lesion whereas CD11c+ cells at subcortical sites were ramified like parenchymal microglia. These findings evidence a recruitment of myeloid DC to ischemic brain lesions and suggest that reactive microglia in remote areas transform into dendritic-like cells. Brain-infiltrating DC and their microglial counterparts may play a role in the inflammatory response to cerebral ischemia independently of T cells.
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PMID:Dendritic cells and dendritic-like microglia in focal cortical ischemia of the mouse brain. 1216 Oct 28

Our studies show that ischemia-reperfusion (I/R) in the isolated rat lung causes retention of lymphocytes, which is associated with increased microvascular permeability, as determined by quantitative measurement of the microvascular filtration coefficient (K(f,c)). Immunoneutralization of either CD40 or CD40L, cell surface proteins important in lymphocyte-endothelial cell proinflammatory events, results in significantly lower postischemic K(f,c) values. Antagonism of CD40-CD40L signaling also results in attenuation of I/R-elicited macrophage inflammatory protein-2 production. Rat lymphocytes activated ex vivo with phorbol 12-myristate, 13-acetate increased K(f,c) in isolated lungs independently of I/R, and this increase was prevented by pretreating lungs with anti-CD40. In addition to lymphocyte involvement via CD40-CD40L interactions, our studies also show that I/R injury is potentiated by antagonism of IL-10 produced locally within the postischemic lung, whereas exogenous, rat recombinant IL-10 provided protection against I/R-induced microvascular damage. Thus acute lymphocyte involvement in lung I/R injury involves CD40-CD40L signaling mechanisms, and these events may be influenced by local IL-10 generation.
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PMID:Involvement of CD40-CD40L signaling in postischemic lung injury. 1238 54

Liver injury induced by ischemia/reperfusion (I/R) is the prime factor in delayed or loss graft function following transplantation. CD4+ T lymphocytes are key cellular mediators of antigen-independent inflammatory response triggered by I/R. We attempted to modulate rat liver I/R injury by targeted gene therapy with CD40Ig, which blocks the CD40-CD154 costimulation pathway. One hundred percent of Ad-CD40Ig-pretreated orthotopic liver transplants (OLTs) subjected to 24 h of cold (4 degrees C) ischemia survived > 14 days (vs 50% in untreated/Ad-beta-gal groups). Ad-CD40Ig treatment decreased sGOT levels and depressed neutrophil infiltration, compared with controls. These functional data correlated with histological Suzuki's grading of hepatic injury, which in untreated/Ad-beta-gal groups showed severe necrosis (> 60%) and moderate to severe sinusoidal congestion; the Ad-CD40Ig-pretreated group revealed minimal sinusoidal congestion/necrosis. Unlike in controls, OLT expression of mRNA coding for IL-2/IFN-gamma remained depressed, whereas that of IL-4/IL-13 reciprocally increased in the Ad-CD40Ig group. Ad-CD40Ig reduced frequency of TUNEL+ cells and pro-apoptotic Caspase-3, but enhanced antioxidant HO-1 and anti-apoptotic Bcl-2/Bcl-xl expression. Thus, prolonged blockade of CD40-CD154 by CD40Ig exerts potent cytoprotection against hepatic I/R injury. These results provide the rationale for a novel gene therapy approach to maximize the organ donor pool through the safer use of liver transplants exposed to prolonged cold ischemia.
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PMID:Gene therapy for liver transplantation using adenoviral vectors: CD40-CD154 blockade by gene transfer of CD40Ig protects rat livers from cold ischemia and reperfusion injury. 1474 76

The danger model of immunity and tolerance holds that antigen-presenting cells (APCs), activated by stress, injury, or necrosis, but not by physiological (apoptotic) cell death, initiate adaptive immune responses. APC activation is fundamentally associated with binding of CD40 to its ligand CD154. Platelets express CD154 upon activation and are thus potential primal danger signals linking the homeostatic response to trauma to activation of the acquired immune system. Previously, we showed that platelets can undergo gradient-driven migration, or chemotaxis, toward supernatants from cells injured by repeated freeze/thaws, UV light, or ischemia/reperfusion. Herein, we demonstrate that platelet-derived CD154 induces immature dendritic cell maturation with upregulation of costimulatory molecules and IL-12p40 production. Overall, these results provide a mechanism for platelet activation of APC facilitating the induction of adaptive immunity in environments of cell injury.
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PMID:Platelets deliver costimulatory signals to antigen-presenting cells: a potential bridge between injury and immune activation. 1510 73

The main difference between cadaveric kidneys from donors with a heartbeat (HBD) and kidneys from nonheart-beating donors (NHBD) is related to warm ischemia/reperfusion time which constitutes an acute inflammatory process. On the contrary, brain death induces in HBD expression of pro-inflammatory adhesion molecules, making it important to evaluate this kind of molecules in both types of donors. Human renal biopsies from NHBD, HBD and normal kidneys (ischemia time = 0) were taken and frozen just before transplant. A semi-quantitative RT-PCR method was used to determine intracellular adhesion molecule 1 (ICAM-1), vascular cell adhesion molecule 1 (VCAM-1), lymphocyte function associated antigen (LFA-1), LFA-3, CD40, CD40 ligand (CD40L) and RANTES (regulated upon activation, normal T-cell expressed and secreted) gene expression. We have detected an elevated relative gene expression of ICAM-1, VCAM-1 and RANTES in NHBD biopsies compared with normal kidneys. In the case of RANTES, the gene expression from NHBD biopsies was higher than observed in HBD biopsies. The rest of genes were not augmented in any group. Preliminary data about early outcome of transplants indicates a correlation between pretransplant RANTES high gene expression levels and early post-transplant acute rejection. The gene expression of pro-inflammatory molecules like adhesion molecules and RANTES is augmented in kidneys from cadaveric NBD just before transplant. The expression is higher probably because of the prolonged warm ischemia period. A larger clinical study is necessary to clarify the effects of these variable expressions on the transplant outcome.
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PMID:Expression of adhesion molecules and RANTES in kidney transplant from nonheart-beating donors. 1573 Apr 95

The mechanisms by which T cells contribute to the hepatic inflammation during antigen-independent ischemia/reperfusion (I/R) are not fully understood. We analyzed the recruitment of T cells in the postischemic hepatic microcirculation in vivo and tested the hypothesis that T cells interact with platelets and activate sinusoidal endothelial cells, resulting in microvascular dysfunction followed by tissue injury. Using intravital videofluorescence microscopy, we show in mice that warm hepatic I/R (90/30-140 min) induces accumulation and transendothelial migration of CD4+, but not CD8+ T cells in sinusoids during early reperfusion. Simultaneous visualization of fluorescence-labeled CD4+ T cells and platelets showed that approximately 30% of all accumulated CD4+ T cells were colocalized with platelets, suggesting an interaction between both cell types. Although interactions of CD4+/CD40L-/- T cells with CD40L-/- platelets in wild-type mice were slightly reduced, they were almost absent if CD4+ T cells and platelets were from CD62P-/- mice. CD4 deficiency as well as CD40-CD40L and CD28-B7 disruption attenuated postischemic platelet adherence in the same manner as platelet inactivation with a glycoprotein IIb/IIIa antagonist and reduced neutrophil transmigration, sinusoidal perfusion failure, and transaminase activities. Treatment with an MHC class II antibody, however, did not affect I/R injury. In conclusion, we describe the type, kinetic, and microvascular localization of T cell recruitment in the postischemic liver. CD4+ T cells interact with platelets in postischemic sinusoids, and this interaction is mediated by platelet CD62P. CD4+ T cells activate endothelium, increase I/R-induced platelet adherence and neutrophil migration via CD40-CD40L and CD28-B7-dependent pathways, and aggravate microvascular/hepatocellular injury.
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PMID:CD4+ T cells contribute to postischemic liver injury in mice by interacting with sinusoidal endothelium and platelets. 1644 Mar 42

Retinopathies are major causes of visual impairment. We used a model of ischemic retinopathy to examine the role of CD40 in the pathogenesis of retinal injury. Retinal inflammation, loss of ganglion cells, and capillary degeneration were markedly attenuated in ischemic retinas of CD40(-/-) mice. Up-regulation of NOS2 and COX2 after retinal ischemia were blunted in CD40(-/-) mice. NOS2-COX-2 up-regulation in ischemic retinas from wild-type mice was at least in part explained by recruitment of NOS2(+)COX-2(+) leukocytes. Up-regulation of KC/CXCL1 and ICAM-1 also required CD40. Retinal endothelial and Muller cells expressed CD40. Stimulation of these cells through CD40 caused ICAM-1 up-regulation and KC/CXCL1 production. Bone marrow transplant experiments revealed that leukocyte infiltration, ganglion cell loss, and up-regulation of proinflammatory molecules after retinal ischemia were dependent on CD40 expression in the retina and not peripheral blood leukocytes. These studies identified CD40 as a regulator of retinal inflammation and neurovascular degeneration. They support a model in which CD40 stimulation of endothelial and Muller cells triggers adhesion molecule up-regulation and chemokine production, promoting the recruitment of leukocytes that express NOS2/COX-2, molecules linked to neurovascular degeneration.
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PMID:CD40 mediates retinal inflammation and neurovascular degeneration. 1905 Feb 92

The interaction between CD40 and its ligand (CD40L) has been implicated in the pathogenesis of atherosclerosis and is recognized as a central event in the development of immuno-inflammatory processes. Our previous studies have shown that the CD40-CD40L interaction modulates platelet, neutrophil, and endothelial reactive oxygen species (ROS) generation. Hypoxia, known to be associated with tissue ischemia and inflammation, also influences the ROS production and changes the cellular redox state. However, the effect of hypoxia on CD40-CD40L mediated vascular inflammation is unknown. We have investigated whether hypoxia influences CD40-CD40L mediated vascular inflammatory responses, ROS production, and cellular interactions. We found that hypoxia significantly enhances the inflammatory effect of CD40L in both endothelial and monocytic cells (THP1). CD40-CD40L interaction in the presence of hypoxia induces ROS production, the synthesis of an inflammatory adhesive protein intercellular adhesion molecule 1 (ICAM1) and activates stress response proteins (p38 MAP kinase and HSP27), indicating that CD40L mediates the induction of oxidative stress in these cells. Importantly, we found that the effects of CD40L can be transmitted between HUVECs and monocytic THP1 cells through intercellular CD40-CD40L interaction and these processes are augmented under hypoxia. Together, these data indicate that under hypoxic conditions the CD40-CD40L interaction significantly influences adhesion molecule expression, stress generation, actin polymerization, and monocytic adhesion to endothelial cells in addition to changes in signaling. In summary, we show that hypoxia can alter CD40-CD40L mediated endothelial-monocyte interaction, playing a significant role in vascular inflammation and cellular adhesion processes.
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PMID:Hypoxia influences CD40-CD40L mediated inflammation in endothelial and monocytic cells. 1918 84

Monocyte accumulation in renal allografts is associated with allograft dysfunction. As monocyte influx occurs acutely following reperfusion, we investigated the effect of ischemia-reperfusion injury (IRI) on monocyte colony stimulating factor (m-CSF), a key cytokine in monocyte recruitment. We hypothesized that renal tubule epithelial cells (RTECs) could produce m-CSF in response to IRI, which could in turn promote monocyte activation. Real time PCR was used to measure levels of intragraft m-CSF transcripts in patients during IRI and clinical rejection. Also, m-CSF production by RTECs following IRI simulation in vitro was measured using ELISA. Monocyte expression of CD40 and CD80 was then analyzed using flow cytometry following co-culture with supernatants of RTECs after IRI. Monocyte expression of CD40, CD80 and HLA-DR was then examined following treatment with rh-m-CSF (10, 36, and 100 ng/ml), as was monocyte size and granularity. We found that intragraft m-CSF transcription was significantly increased postreperfusion (P = 0.002) and during clinical rejection (P = 0.002). We also found that RTECs produced m-CSF in response to IRI in vitro (P = 0.036). Monocytes co-cultured with the supernatants of postischemic RTECs became activated as evidenced by increased expression of CD40 and CD80. Also, monocytes treated with recombinant m-CSF assumed an activated phenotype exhibiting increased size, granularity and expression of CD40, CD80, CD86, and HLA-DR, and demonstrating enhanced phagocytic activity. Taken together, we suggest that renal tubular cell derived m-CSF is a stimulus for monocyte activation and may be an important target for control of IRI-associated immune activation.
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PMID:Renal epithelial cell-derived monocyte colony stimulating factor as a local informant of renal injury and means of monocyte activation. 1919 48

Leukocytes are recruited into the cerebral microcirculation following an ischemic insult. The leukocyte-endothelial cell adhesion manifested within a few hours after ischemia (followed by reperfusion, I/R) largely reflects an infiltration of neutrophils, while other leukocyte populations appear to dominate the adhesive interactions with the vessel wall at 24 h of reperfusion. The influx of rolling and adherent leukocytes is accompanied by the recruitment of adherent platelets, which likely enhances the cytotoxic potential of the leukocytes to which they are attached. The recruitment of leukocytes and platelets in the postischemic brain is mediated by specific adhesion glycoproteins expressed by the activated blood cells and on cerebral microvascular endothelial cells. This process is also modulated by different signaling pathways (e.g., CD40/CD40L, Notch) and cytokines (e.g., RANTES) that are activated/released following I/R. Some of the known risk factors for cardiovascular disease, including hypercholesterolemia and obesity appear to exacerbate the leukocyte and platelet recruitment elicited by brain I/R. Although lymphocyte-endothelial cell and -platelet interactions in the postischemic cerebral microcirculation have not been evaluated to date, recent evidence in experimental animals implicate both CD4+ and CD8+ T-lymphocytes in the cerebral microvascular dysfunction, inflammation, and tissue injury associated with brain I/R. Evidence implicating regulatory T-cells as cerebroprotective modulators of the inflammatory and tissue injury responses to brain I/R support a continued focus on leukocytes as a target for therapeutic intervention in ischemic stroke.
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PMID:Leukocyte recruitment and ischemic brain injury. 1957 16

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