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)

The biosynthetic heme precursor 5-aminolevulinic acid (5-ALA) is a generator of oxygen radicals in vitro and possibly in vivo during pathologic situations of 5-ALA overload, for example, acute intermittent porphyria and saturnism. It has been observed that 5-ALA induces, in isolated rat liver mitochondria, permeabilization of the inner mitochondrial membrane (a phenomenon called permeability transition) as verified by the elimination of the transmembrane electrical potential, Ca2+ release, mitochondrial swelling, and increase in state-4 respiratory rate. The damaging process is primarily attributed to .OH radicals as elucidated by the protection by catalase, superoxide dismutase, and the Fe(II) chelator o-phenanthroline. Ruthenium red, EGTA, and dithiothretol (DTT) have been observed to prevent the action of 5-ALA-generated oxyradicals, suggesting the participation of both Ca2+ and the oxidation of critical thiol membrane proteins in the process of permeability transition. 5-ALA-induced polymerization of thiol membrane proteins has also been demonstrated by SDS-PAGE electrophoresis of the mitochondrial suspensions, a process similar to that observed in mitochondria treated with tert-butyI hydroperoxide. EGTA addition, in contrast with DTT or antioxidants, restores the previously eliminated electrical potential. Furthermore, EGTA prevents the 5-ALA-mediated polimeryzation of thiol proteins. These observations suggest that Ca2+ participates in a later stage of the permeability transition, after the oxidation of the thiol proteins. The effects of 5-ALA-derived oxyradicals in isolated mitochondria could be used as a tool for more general studies of oxidative stress, such as the mitochondrial injury that follows processes of ischemia and reperfusion or xenobiotic poisoning.
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PMID:How do Ca2+ and 5-aminolevulinic acid-derived oxyradicals promote injury to isolated mitochondria? 755 53

Protease nexin-I (PN-1) is a 44 kDa serine proteinase inhibitor that rapidly inhibits thrombin by forming SDS stable complexes with serine at the catalytic site of the protease. Levels of both PN-1 and thrombin are increased in the brain in response to insults such as ischemia, suggesting roles in neural injury and repair processes. We now report that PN-1-protected cultured rat hippocampal neurons against glucose deprivation- induced damage (GDID), and the protection was abolished by equimolar thrombin. PN-1 reduced resting intracellular free calcium levels ([Ca2+]i) and attenuated the elevation of [Ca2+]i normally associated with GDID. Thrombin reduced neuronal survival and caused a significant increase in [Ca2+]i. Submaximally toxic levels of thrombin exacerbated GDID. Calcium responses to thrombin were attenuated in neurons contacting PN-1 immunoreactive astrocytes. These findings suggest that PN-1 and thrombin play important roles in modulating neuronal calcium responses, and vulnerability, to metabolic/excitotoxic insults.
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PMID:Protease nexin-1 and thrombin modulate neuronal Ca2+ homeostasis and sensitivity to glucose deprivation-induced injury. 764 24

Angiogenesis is an important process in chronic inflammatory diseases. We observed that sera from patients with systemic vasculitis stimulated angiogenesis in an in vitro model using human umbilical vein endothelial cells cultured on a basement membrane (Matrigel) substrate. After 40% ammonium sulfate precipitation, angiogenic activity remained in the low molecular weight fraction and could be inactivated by heat. SDS-page of serum FPLC fractions exhibiting maximal angiogenic activity demonstrated two prominent species of 45 and 16-20 kD in patients' sera. These bands were much less apparent in sera obtained from control subjects. Amino-terminal sequencing of the 45-kD protein demonstrated that it was haptoglobin. Purified haptoglobin stimulated angiogenesis in a dose-dependent manner. The angiogenic activity of vasculitis patients' sera was partially inhibited by an antihaptoglobin antibody. Furthermore, serum haptoglobin levels in vasculitis patients correlated both with disease and angiogenic activity. Haptoglobin angiogenic activity was confirmed in two in vivo models using an implanted disc and a subcutaneous injection of basement membrane. Stimulation of angiogenesis is a newly recognized biological function of haptoglobin. The increased levels of haptoglobin found in chronic inflammatory conditions may play an important role in tissue repair. In systemic vasculitis, haptoglobin might also compensate for ischemia by promoting development of collateral vessels.
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PMID:Identification of haptoglobin as an angiogenic factor in sera from patients with systemic vasculitis. 768 Jun 72

Calpain activity was measured in the various subfractions of rat myocardia after global ischemia for 60 min or after ischemia followed by 30 min of reperfusion after the chromatographic separation of mu- and m-calpains. The activity of m-calpain after ischemia and that of mu-calpain after reperfusion were both higher than that in the control. The activity of the endogenous calpain inhibitor calpastatin in 10,000 x g supernatant was decreased after both ischemia and ischemia-reperfusion. The increase in m- and mu-calpain activities was suppressed by pre-ischemic perfusion with a synthetic calpain inhibitor, transepoxysuccinyl-L-leucylamido (4-guanidino) butane (E64d, 100 micrograms/ml). After reperfusion, the calpain activity in the 10,000 x g pellet was also increased, which was inhibited by pre-ischemic perfusion with E64d or dimethylsulfoxide (a solvent for E64d) or by reperfusion with 1 mmol/L ethyleneglycol bis (beta-aminoethylether)-N, N, N', N'-tetraacetic acid. SDS-polyacrylamide gel electrophoresis revealed the proteolysis of several proteins, including fodrin, in the 10,000 x g and 100,000 x g pellet fractions after ischemia and reperfusion, some of which were confirmed to be in vitro substrates of calpain. The creatine kinase release during the reperfusion was also partially inhibited by E64d or dimethylsulfoxide. Thus, calpain activity in the soluble or particulate fractions was altered during ischemia or reperfusion, and appeared to be implicated in the proteolysis of the membrane proteins, which may contribute to myocardial injury.
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PMID:Calpain is implicated in rat myocardial injury after ischemia or reperfusion. 775 44

Inflammatory cell-mediated myelin injury may be an important cause of tissue damage in both acute and chronic central nervous system (CNS) disorders. The 21-aminosteroids are novel derivatives of methylprednisolone without obvious glucocorticoid or mineralocorticoid side effects. We evaluated the ability of 21-aminosteroid, U74500A, to inhibit oxidation of rat brain myelin by human polymorphonuclear leukocytes (PMN) and monocytes. Myelin samples, as confirmed by SDS-PAGE, were incubated with PMN or monocytes and 100 microM U74500A or vehicle. Myelin oxidation by both PMN and monocytes was significantly reduced by U74500A. These observations demonstrate that U74500A can inhibit myelin oxidation by inflammatory cells. Additionally, 100 microM U74500A significantly reduced production of interleukin 1-beta by monocytes exposed to myelin. The aminosteroids may be beneficial in CNS disorders where myelin injury by inflammatory cells appears to contribute, such as acute focal ischemia or multiple sclerosis.
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PMID:Inhibition of inflammatory cell-mediated myelin oxidation and interleukin-1 beta generation by a 21-aminosteroid, U74500A. 827 34

Xanthine dehydrogenase/xanthine oxidase (XDH/XO) is a major cytoplasmic source of superoxide radicals and hydrogen peroxide, and it is considered important in the pathogenesis of ischemia-reperfusion damage. Because little is known about the enzyme in human tissues, the aims of this study were to purify human XDH/XO and to produce Ab for detection of the protein in Western blots and for quantification by ELISA. We purified human milk XDH/XO, produced Ab for Western blotting and ELISA of the protein, and evaluated the molecular forms and activity-protein relationships in human tissues. The molecular size of the purified protein under nondenaturing conditions was approximately 300 kd. On SDS-PAGE, it was fragmented into four main bands of 143, 125, 87, and 59 kd. Ab recognized bands of similar size in Western blots of the purified preparation and human milk. In fresh liver homogenates treated with anti-proteases, the three largest bands were observed; in the intestine, only the two largest were observed. Serum, brain, heart, and skeletal muscle were negative, whereas some lung and kidney samples showed one faint band of 143 kd. Trypsin treatment of the enzyme converted the large molecular-weight bands into smaller bands, as did incubation of a liver homogenate without anti-proteases. XDH/XO protein concentrations (ng/mg total protein) were 146 +/- 70 in liver and 556 +/- 320 in intestine and less than 5 ng/ml in serum. The relationship of activity to protein (2.7-3.0 mumol/min/mg XDH/XO protein) was constant in liver and intestine during development. We conclude that 1) human XDH/XO has molecular size and subunit structure similar to other mammalian enzymes; 2) the polypeptide chain is unstable, also in the intact cell, despite retained activity; and 3) the amount of inactive XDH/XO in human liver and intestine is apparently small.
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PMID:Organ distribution and molecular forms of human xanthine dehydrogenase/xanthine oxidase protein. 856 97

Myofibrillar proteins (MPs) were extracted from isolated and perfused rat hearts subjected to different periods of ischemia to investigate the occurrence of protein degradation and/or the association of cytosolic proteins with the myofibrillar pellet. A 23-kD band was detected by SDS-PAGE of MPs after 5 minutes of ischemia, with its density gradually increasing to a plateau after 20 minutes. Longer periods of ischemia were associated with the appearance of a 39-kD band. Irrespective of the duration of ischemia, both these bands persisted during reperfusion. A partial proteolytic degradation of troponin T (TnT) and troponin I (TnI) has been claimed to be responsible for the generation of these peptides. However, the N-terminal sequence of the 39-kD band was identical to that of GAPDH, whereas Edman sequencing after pepsin digestion showed that the 23 kD is alpha B-crystallin. The binding of the two cytosolic proteins to myofibrils was confirmed by immunofluorescence analysis on cryosections of ischemic hearts. In vitro studies showed that acidosis was sufficient to induce the binding of alpha B-crystallin, whereas the inhibition of ATP depletion prevented the binding of GAPDH. Thiol oxidation is unlikely to promote GAPDH binding, since perfusion with iodoacetate under aerobic conditions or treatment of homogenates with N-ethylmaleimide or diamide failed to induce GAPDH association with the myofibrils. These changes of the myofibrillar proteins could be considered as intracellular markers of the evolution of the ischemic damage. In addition, the binding of the 23-kD peptide might be involved in alterations of contractility.
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PMID:Binding of cytosolic proteins to myofibrils in ischemic rat hearts. 862 Jun 2

The carbohydrate moieties of glycoprotein hormones or growth factor molecules may have a variety of effects that impact biological potency. Vascular endothelial growth factor (VEGF), also known as vascular permeability factor (VPF), is a 45 kD heparin-binding, endothelial cell (EC) specific mitogen with a putative N-linked glycosylation site. Recent studies have shown that VEGF/VPF may successfully augment collateral development in animal models of myocardial and hindlimb ischemia. The extent to which glycosylation of the 75 asparagine site affects the angiogenic properties of VEGF/VPF has not been studied in vivo. Specifically unaddressed to date is the concern that nonglycosylated VEGF/VPF may be less stable, and therefore characterized by a shorter half-life, reducing its utility for therapeutic angiogenesis. Accordingly, the purpose of this study was to investigate the extent to which posttranslational modification, specifically glycosylation, mofies the angiogenic properties of VEGF/VPF in vivo. Glycosylated (g+) recombinant human VEGF165 was purified from media conditioned by Chinese hamster ovary (CHO) cells. Nonglycosylated (g-) VEGF165 was expressed, purified and refolded from E. coli. The purity of both materials was assessed by silver-stained SDS/PAGE and characterized by the presence of a single amino terminal sequence as indicated by Edman degradation. Tryptic mapping by reverse-phase HPLC confirmed that the potential glycosylation site at 75 asparagine was occupied by N-linked carbohydrate for the Chinese hamster ovary-derived VEGF/VPF, but not for E. coli-derived VEGF/VPF. The mitogenic effects of Chinese hamster ovary-derived (g+) VEGF165 and E. coli-derived (g-) VEGF165 wre studied in vitro using microvascular EC. At concentrations of VEGF/VPF ranging from 10(-4) to 10(2) nM, both produced similar concentration-dependent effects on EC proliferation. For in vivo studies, (g-) (n = 8) and (g+) (n = 8) formulations of VEGF/VPF were administered to New Zealand white rabbits with unilateral hindlimb ischemia. For (g-) versus (g+) VEGF/VPF-treated groups, respectively, calf blood pressure ratio was 0.40 +/- 0.04 versus 0.37 +/- 0.04; angiographic score (of collateral vessels) was 0.37 +/- 0.04 versus 0.35 +/- 0.04; capillary density (capillaries/mm2) at necropsy was 246.9 +/- 21.5 versus 253.9 +/- 18.8; and tissue perfusion (colored microspheres) was 92.8 +/- 5.5 versus 90.30 +/- 13.47 (all p = ns). Moreover, intravascular Doppler-based analyses of resting, maximum, and endothelium-dependent flow was similar for (g-) and (g+) VEGF/VPF. These in vitro and in vivo findings establish that the potential for VEGF/VPF to stimulate therapeutic angiogenesis persists unaltered in the nonglycosylated state.
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PMID:The in vivo bioactivity of vascular endothelial growth factor/vascular permeability factor is independent of N-linked glycosylation. 878 Jan 72

The decrease in Ca2+ responsiveness of myofilaments in stunned myocardium implies that there may be structural changes in proteins composing the contractile machinery. To elucidate the lesion in stunned myocardium, isolated guinea pig hearts were subjected to global ischemia at 37 degrees C and reperfused. SDS-PAGE revealed that the contents of desmin, alpha-actinin, and spectrin decreased in the myofibrillar fraction isolated from hearts reperfused after 60-minute ischemia compared with nonischemic control hearts. To examine the change of cytoskeletal proteins in stunned myocardium, immunohistochemical studies with antibodies against these proteins were performed after 15 minutes of ischemia. In stunned myocardium, the staining was largely intact, but there were some lesions where desmin was not stained and alpha-actinin and spectrin were only weakly identified. The percentage of normally stained areas in the myocardium (percent stained area), quantified by image processing, was significantly lower in stunned myocardium (79.6 +/- 3.6%, mean +/- SEM) than in nonischemic control myocardium (96.5 +/- 0.7%). Percent recovery of developed pressure significantly correlated with percent stained area (r = .82, P < .001). In hearts subjected to 15-minute ischemia but not reperfused, or in hearts reperfused with Ca(2+)-free solution after 15-minute ischemia, staining by the antibodies remained intact, suggesting that the change of the cytoskeletal proteins is mediated by Ca2+ overload during reperfusion. In hearts treated with the protease inhibitor leupeptin (50 mumol/L) or calpain inhibitor I (100 mumol/L), both developed pressure and staining were well preserved. These results indicate that contractile dysfunction in stunned myocardium has a strong correlation with the disappearance of cytoskeletal proteins that may be mediated by a Ca(2+)-dependent intracellular protease activated during reperfusion. The disruption of cytoskeletal proteins is a possible mechanism for stunning, although it may be a secondary effect of protease activation.
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PMID:Inhomogeneous disappearance of myofilament-related cytoskeletal proteins in stunned myocardium of guinea pig. 878 78

Although heart attack is caused by occlusion of a major coronary artery, some patients have occlusion without heart attack because these patients have sufficient collateral circulation to provide an alternate pathway for blood supply to the myocardium at ischemic risk. The growth of new capillary vessels (angiogenesis) and enlargement of preexisting vessels play an important role in the collateral development. We evaluated the hypothesis that extracellular matrix metalloproteinase (MMP) expression is altered in coronary collateral arteries (0.5-1 mm o.d.) isolated from canine hearts 2-4 months after surgical placement of an ameroid occluder around the proximal left circumflex artery (n = 4), during the development of collateral vessels and restructuring new vessels. Histologic studies (hematoxylin and eosin, trichrome, and van Gieson stains) indicated cellular proliferation and increased collagen and elastin content in collateral vessels compared with comparable-sized unoccluded arterial segments of the left anterior descending (LAD) artery. In situ MMP activity of collateral vessels, measured using denatured collagen in the gel matrix, indicated an increase in total MMP activity in the intima of collateral vessels compared with normal LAD vessels. To further identify the type of MMP, tissue homogenates were prepared from collateral and LAD vessels and analyzed by SDS-PAGE zymography. The results suggest induction of gelatinase A and gelatinase B expression in collateral vessels compared with normal LAD tissue, when identical amounts of total protein were loaded onto each lane in the gel. Based on plasminogen-casein zymography, we observed the tissue plasminogen activator level to be increased in collateral vessels. On the basis of immunoblot and mRNA (Northern blot) analyses, we determined that the MMP-1 level was induced in collateral vessels 2 and 4 months after ameroid occlusion. In contrast with MMP-1, the level of TIMP-1 (tissue inhibitor of metelloproteinases) was decreased significantly (p < 0.001) in collateral compared with LAD vessels, suggesting a role for arterial TIMP in anti-angiogenic activity. Collectively, these results suggest that chronic occlusion of a major coronary artery induces upregulation of vascular remodeling mechanisms subserving collateral development. Increased MMP-2 activity in collaterals may be associated with decreased levels of tissue inhibitor of metalloproteinases and fibrous tissue remodeling following angiogenic and (or) adaptive responses of the myocardium to chronic ischemia.
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PMID:Temporal expression of extracellular matrix metalloproteinases and tissue plasminogen activator in the development of collateral vessels in the canine model of coronary occlusion. 896 Mar 89

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