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

We have reported that interleukin-1 beta (IL-1 beta) upregulates cardiac expression of vascular endothelial growth factor (VEGF) and VEGF receptor-2 (VEGFR-2), raising the possibility that IL-1 beta plays an important role in VEGF-mediated neovascularization. In this study, we examined the cellular mechanism for ischemia-induced neovascularization using IL-1 beta knock-out (-/-) mice. Recovery of blood perfusion in ischemic hindlimb in IL-1 beta-/- mice was markedly (43% decrease) impaired as compared with the wild-type mice. CD31(+) vessel numbers and Ki-67(+) neo-capillaries were significantly (P < 0.01) decreased 44% and 68%, respectively. IL-1 beta expression was localized in the capillary vessels in ischemic limb muscles. Ischemia-induced expressions of hypoxia-inducible factor 1 alpha (HIF-1 alpha), VEGF, its receptor VEGFR-2 and vascular cell adhesion molecule-1 (VCAM-1) were markedly inhibited in the IL-1 beta-/- mice. Hindlimb ischemia-induced an increase (1.22% out of total nuclear cell) in CD34(-)/B220(-)/CD3(-)/Flk-1(+) hematopoietic stem cell population in peripheral blood in the wild-type mice, whereas in the IL-1 beta-/- mice such increase was only 0.09%. Injection of IL-1 beta protein into the wild-type mice markedly increased the ratio of the CD34(-)/B220(-)/CD3(-)/Flk-1(+) cell population (from 0.03% to 0.7%) in the peripheral blood associated with an increase in the number of endothelial cells. Such IL-1 beta-mediated increases in cell numbers were blocked by co-injection of anti-VEGF antibody. CD34(-)/B220(-)CD3(-)Flk-1(+) cells trans-differentiated into eNOS- and CD31-expressing endothelial cells in vivo and in vitro. This study demonstrates that IL-1 beta plays a key role in ischemia-induced neovascularization by mobilizing CD34(-)/B220(-)CD3(-)Flk-1(+) endothelial precursor cells in a VEGF-dependent manner as well as by upregulating expressions of VEGF, VEGFR-2 and adhesion molecules on endothelial cells.
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PMID:Mechanism for IL-1 beta-mediated neovascularization unmasked by IL-1 beta knock-out mice. 1508 5

C1-inhibitor (C1-INH) is a major regulator of the complement classical pathway. Besides this action, it may also inhibit other related inflammatory systems. We have studied the effect of C1-INH in C57BL/6 mice with focal transient brain ischemia induced by 30 minutes of occlusion of the middle cerebral artery. C1-INH induced a dose-dependent reduction of ischemic volume that, with the dose of 15 U/mouse, reached 10.8% of the volume of saline-treated mice. Four days after ischemia the treated mice had significantly lower general and focal neurological deficit scores. Fluoro-Jade staining, a marker for neuronal degeneration, showed that C1-INH-treated mice had a lower number of degenerating cells. Leukocyte infiltration, as assessed by CD45 immunostaining, was also markedly decreased. We then investigated the response to ischemia in C1q(-/-) mice. There was a slight, nonsignificant decrease in infarct volume in C1q(-/-) mice (reduction to 72.3%) compared to wild types. Administration of C1-INH to these mice was still able to reduce the ischemic volume to 31.4%. The study shows that C1-INH has a strong neuroprotective effect on brain ischemia/reperfusion injury and that its action is independent from C1q-mediated activation of classical pathway.
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PMID:The powerful neuroprotective action of C1-inhibitor on brain ischemia-reperfusion injury does not require C1q. 1511 32

Multipotent adult progenitor cells, which can differentiate into mesenchymal cells as well as cells with visceral mesoderm, neuroectoderm and endoderm characteristics, have been identified in the bone marrow. We examined whether bone marrow-derived cells can differentiate into the major cell types in the brain, including neuron, astrocyte, microglia and endothelium, in response to cerebral focal ischemia under treatment with cytokines. Bone marrow cells, which were sampled from green fluorescent protein (GFP)-expressing transgenic mice, were transplanted into irradiated female C57 Black/6 mice. Two months later, the recipient mice received permanent occlusion of the middle cerebral artery, then were treated with cytokines. One month after the occlusion, GFP-expressing cells, considered to be bone marrow-derived, were identified as neurons, endothelial cells, microglias and macrophages by means of NeuN, CD31, major histocompatibility complex class I antigen, and CD45 labeling, respectively, observed with confocal microscopy. These results indicate that the bone marrow-derived cells are, at least in part, a source of neurons as well as endothelial cells generated in response to cerebral infarction, in the presence of cytokines. This finding may suggest a new therapeutic strategy to enhance neuronal and vascular regeneration after stroke in the clinical field.
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PMID:[Differentiation of adult bone marrow cells into neurons and endothelial cells in rat brain after stroke in the presence of cytokines]. 1515 77

Ischemia/reperfusion during liver transplantation triggers a complex cascade of inflammatory events that may lead to organ dysfunction. Herein, we investigated the consequences of hepatic ischemia/reperfusion on liver dendritic cells. Liver damage was documented by increased levels of serum alanine aminotransferase and by histopathology showing large areas of hepatocyte cytolysis. MHC class II+ CD45-B220 F4/80 dendritic cells were detected in necrotic areas 20 hours after reperfusion. Dendritic cells freshly isolated from reperfused livers displayed a mature phenotype characterized by upregulated expression of B7 costimulatory molecules; MHC-class II, and CD1d molecules. As shown by real-time PCR, IL-10, and TGF-beta mRNA accumulated in liver dendritic cells isolated after reperfusion, whereas IL-12p40 mRNA levels were decreased and IFN-gamma mRNA levels were unchanged. These results suggest that hepatic ischemia/reperfusion results in maturation of dendritic cells, which preferentially produce inhibitory cytokines.
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PMID:The fate of dendritic cells in a mouse model of liver ischemia/reperfusion injury. 1525 11

Cerebral ischemia triggers an inflammatory process involving the infiltration of leukocytes to the parenchyma. Circulating leukocytes adhere to the vascular wall through adhesion molecules. Here we quantified the in vivo expression of vascular cell adhesion molecule-1 (VCAM-1) in the brain, heart and lungs from 6 to 48 h after transient middle cerebral artery (MCA) occlusion in rats, by intravenous injection of a tracer radiolabelled anti-VCAM-1 antibody. The vascular localization of VCAM-1 was verified by immunohistochemistry after in vivo injection of the antibody. Vascular cell adhesion molecule-1 was strongly induced (4-fold at 24 h) in the microvasculature of the ischemic area, and, to a lesser extent, in the contralateral hemisphere and in a remote organ, the heart, but not in the lungs, indicating that the inflammatory process propagates beyond the injured brain. We injected intravenously either blocking doses of anti-VCAM-1 antibodies or control antibodies after MCA occlusion in rats and mice. We evaluated the neurological score in rats, and infarct volume at 2 days in rats and at 4 days in mice. Anti-VCAM-1 did not protect against ischemic damage either in rats or in mice. Vascular cell adhesion molecule-1 blockade significantly decreased the number of ED1 (labeling monocytes /macrophages/reactive microglia)-positive cells in the ischemic rat brain. However, it did not reduce the numbers of infiltrating neutrophils and lymphocytes, and total leukocytes (CD45 positive), which showed a trend to increase. The results show vascular upregulation of VCAM-1 after transient focal ischemia, but no benefits of blocking VCAM-1, suggesting that this is not a therapeutical strategy for stroke treatment.
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PMID:Anti-VCAM-1 antibodies did not protect against ischemic damage either in rats or in mice. 1607 86

Vascular endothelial cadherin (VE-cadherin) is expressed on vascular endothelial cells, which are involved in developmental vessel formation. However, it remains elusive how VE-cadherin-expressing cells function in postnatal neovascularization. To trace VE-cadherin-expressing cells, we developed mice expressing either green fluorescent protein or LacZ driven by VE-cadherin promoter using Cre-loxP system. Although VE-cadherin promoter is less active after birth than during embryogenesis in blood vessels, it is reactivated on cardiac ischemia. Both types of reporter-positive cells are found in the vasculature and in the infarcted myocardium. Those found in the vasculature were pre-existing endothelial cells and incorporated endothelial progenitor cells derived from extracardiac tissue. In addition to the vasculature, VE-cadherin promoter-activated cells were positive for CD45 in the bone marrow cells of the infarcted mice. VE-cadherin promoter-reactivated CD45-positive leukocytes were also found in the infarcted area. In addition, VE-cadherin promoter was activated in the bone marrow vessels of the infarcted mice. Collectively, our findings reveal a new ischemia-induced neovascularization mechanism involving VE-cadherin; the re-expressed VE-cadherin-mediated cell adhesion between cells may be involved not only in homing of bone marrow-derived cells to ischemic area but also mobilization from bone marrow.
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PMID:Cardiac ischemia activates vascular endothelial cadherin promoter in both preexisting vascular cells and bone marrow cells involved in neovascularization. 1654 97

It has been reported that granulocyte-colony stimulating factor (G-CSF) and granulocyte-macrophage-colony stimulating factor (GM-CSF) can mobilize endothelial progenitor cells (EPCs) in bone marrow cells (BMCs) into peripheral blood (PB) in vivo. Previously, we also reported that macrophage-colony stimulating factor (M-CSF) can mobilize EPCs into PB, which results in the rapid recovery of blood flow in induced-ischemia limbs by augmenting the number of intramuscular capillaries in vivo. In the present study, we demonstrate that M-CSF and/or G-CSF can increase EPCs from lineage (CD3, B220, Gr-1, Mac-1, CD11c, Ter119, NK1.1 or CD31)-negative BMCs in vitro. Lineage-negative BMCs were cultured with or without M-CSF and/or G-CSF. Three days after culture with M-CSF and/or G-CSF, the number of Flk-1+/CD45-, Sca-1+/CD45-, CD31+/CD45- or CD146+/CD45- cells increased in comparison with no cytokines. When the cultured BMCs with or without G-CSF and/or M-CSF were intravenously injected into ischemia-induced hindlimbs of mice, the number of intramuscular capillaries in the ischemia-induced legs increased; BMCs cultured with G-CSF and/or M-CSF were more effective than those of cytokine non-treated BMCs. These results suggest that M-CSF and/or G-CSF can induce the differentiation of BMCs into EPCs, even in vitro.
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PMID:G-CSF and/or M-CSF accelerate differentiation of bone marrow cells into endothelial progenitor cells in vitro. 1668 90

We previously described a mouse model of fibrotic ischemia/reperfusion cardiomyopathy (I/RC) arising from daily, brief coronary occlusion. One characteristic of I/RC was the prolonged elevation of monocyte chemoattractant protein 1 (MCP-1), which was obligate to its phenotype and may contribute to the uptake of bloodborne cells. Here we describe in I/RC hearts a population of small spindle-shaped fibroblasts that were highly proliferative and expressed collagen I and alpha-smooth muscle actin (myofibroblast markers), CD34 (a precursor marker), and CD45 (a hematopoietic marker). These cells represented 3% of all nonmyocyte live cells. To confirm the cells' bone marrow origin, chimeric mice were created by the rescue of irradiated C57BL/6 mice with marrow from ROSA26, a congenic line expressing lacZ. I/RC resulted in a large population of spindle-shaped fibroblasts containing lacZ. We postulated that the fibroblast precursors represented a developmental path for a subset of monocytes, whose phenotype we have shown to be influenced by serum amyloid P (SAP). Thus, we administered SAP in vivo, which markedly reduced the number of proliferative spindle-shaped fibroblasts and completely prevented I/RC-induced fibrosis and global ventricular dysfunction. By contrast, SAP did not suppress the inflammation or chemokine expression seen in I/RC. SAP, a member of the pentraxin family, binds to Fcgamma receptors and modifies the pathophysiological function of monocytes. Our data suggest that SAP interferes with assumption of a fibroblast phenotype in a subset of monocytes and that SAP may be an important regulator in the linkage between inflammation and nonadaptive fibrosis in the heart.
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PMID:Bone marrow-derived fibroblast precursors mediate ischemic cardiomyopathy in mice. 1711 86

Macrophages can be both beneficial and detrimental after CNS injury. We previously showed rapid accumulation of macrophages in injured immature brain acutely after ischemia-reperfusion. To determine whether these macrophages are microglia or invading monocytes, we subjected post-natal day 7 (P7) rats to transient 3 h middle cerebral artery (MCA) occlusion and used flow cytometry at 24 and 48 h post-reperfusion to distinguish invading monocytes (CD45high/CD11b+) from microglia (CD45low/medium/CD11b+). Inflammatory cytokines and chemokines were determined in plasma, injured and contralateral tissue 1-24 h post-reperfusion using ELISA-based cytokine multiplex assays. At 24 h, the number of CD45+/CD11b+ cells increased 3-fold in injured compared to uninjured brain tissue and CD45 expression shifted from low to medium with less than 10% of the population expressing CD45high. MCA occlusion induced rapid and transient asynchronous increases in the pro-inflammatory cytokine IL-beta and chemokines cytokine-induced neutrophil chemoattractant protein 1 (CINC-1) and monocyte-chemoattractant protein 1 (MCP-1), first in systemic circulation and then in injured brain. Double immunofluorescence with cell-type specific markers showed that multiple cell types in the injured brain produce MCP-1. Our findings show that despite profound increases in MCP-1 in injured regions, monocyte infiltration is low and the majority of macrophages in acutely injured regions are microglia.
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PMID:Macrophages are comprised of resident brain microglia not infiltrating peripheral monocytes acutely after neonatal stroke. 1721 1

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