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)

Myocardial ischemia-reperfusion injury contributes significantly to morbidity and mortality in patients with diabetes. Insulin decreases myocardial infarct size in animals and the rate of apoptosis in cultured cells. Ischemia-reperfusion activates p38 mitogen-activated protein kinase (MAPK), which regulates cellular apoptosis. To examine whether p38 MAPK affects insulin's cardioprotection against ischemia-reperfusion injury, we studied overnight-fasted adult male rats by use of an in vivo rat model of myocardial ischemia-reperfusion. A euglycemic clamp (3 mU.min(-1).kg(-1)) was begun either 10 min before ischemia (InsulinBI), 5 min before reperfusion (InsulinBR), or 30 min after the onset of reperfusion (InsulinAR), and continued until the end of the study. Compared with saline control, insulin decreased the infarct size in both InsulinBI (P < 0.001) and InsulinBR (P < 0.02) rats but not in InsulinAR rats. The ischemic area showed markedly increased phosphorylation of p38 MAPK compared with the nonischemic area in saline animals. Acute activation of p38 MAPK with anisomycin (2 mg/kg iv 10 min before ischemia) had no effect on infarct size in saline rats. However, it completely abolished insulin's protective effect in InsulinBI and InsulinBR rats. Activation of p38 MAPK by anisomycin was associated with marked and persistent elevation in IRS-1 serine phosphorylation. Treatment of animals with SB-239063, a potent and specific inhibitor of p38 MAPK, 10 min before reperfusion enabled insulin-mediated myocardial protection in InsulinAR rats. We conclude that insulin protects myocardium against ischemia-reperfusion injury when given prior to ischemia or reperfusion, and activation of p38 MAPK abolishes insulin's cardioprotective effect.
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PMID:Activation of p38 mitogen-activated protein kinase abolishes insulin-mediated myocardial protection against ischemia-reperfusion injury. 1800 19

The critical event of the intrinsic pathway of apoptosis following transient global brain ischemia is the release of cytochrome c from the mitochondria. In vitro studies have shown that insulin can signal specifically via phosphatidylinositol-3-OH-kinase (PI3-K) and Akt to prevent cytochrome c release. Therefore, insulin may exert its neuroprotective effects during brain reperfusion by blocking cytochrome c release. We hypothesized that insulin acts through PI3-K, Akt, and Bcl-2 family proteins to inhibit cytochrome c release following transient global brain ischemia. We found that a single bolus of insulin given immediately upon reperfusion inhibited cytochrome c release for at least 24 h, and produced a fivefold improvement in neuronal survival at 14 days. Moreover, insulin's ability to inhibit cytochrome c release was completely dependent on PI3-K signaling and insulin induces phosphorylation of Akt through PI3-K. In untreated animals, there was an increase in mitochondrial Bax at 6 h of reperfusion, and Bax binding to Bcl-X(L) was disrupted at the mitochondria. Insulin prevented both these events in a PI3-K-dependent manner. In summary, insulin regulates cytochrome c release through PI3-K likely by activating Akt, promoting the binding between Bax and Bcl-X(L), and by preventing Bax translocation to the mitochondria.
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PMID:Insulin blocks cytochrome c release in the reperfused brain through PI3-K signaling and by promoting Bax/Bcl-XL binding. 1851 5

Impaired glucose metabolism is implicated in cardiac failure during ischemia-reperfusion. This study examined cardiac glucose uptake and expression of glucose transport-4 (GLUT-4) in dogs undergoing ischemia-reperfusion. Cardiac ischemia was induced by cardiopulmonary bypass for 30 min or 120 min in dogs. Plasma insulin and glucose concentrations were measured at pre-bypass (control), and aortic cross-clamp off (ischemia-reperfusion) at 15, 45, and 75 min. At the same time, the left ventricle biopsies were taken for GLUT-4 immunohistochemistry and glycogen content analysis. In dogs receiving 120-min ischemia, coronary arterial and venous glucose concentrations were increased, but the net glucose uptake in ischemia-reperfusion heart were significantly decreased from 25% (control) to zero at 15 and 45 min of reperfusion, and recovered to only 7% after 75 min reperfusion. Myocardium glycogen contents were decreased by 65%. Plasma insulin levels and Insulin Resistant Index were markedly increased in dogs undergoing 120-min ischemia and reperfusion. These changes were relatively mild and reversible in dogs receiving only 30-min ischemia followed by reperfusion. Expression of total GLUT-4 in myocardium was decreased 40% and translocation of GLUT-4 from cytoplasm to surface membrane was decreased 90% in dogs receiving 120-min ischemia followed by 15-min reperfusion. Suppressed translocation of GLUT-4 was also evident in dogs receiving 30-min ischemia, but to a lesser extent. Reduced myocardium glucose uptake, utilization, and glycogen content are clearly associated with ischemia-reperfusion heart injury. This appears to be due, at least in part, to suppressed expression and translocation of myocardium GLUT-4.
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PMID:Cardiac glucose uptake and suppressed expression/translocation of myocardium glucose transport-4 in dogs undergoing ischemia-reperfusion. 1853 64

Insulin-like growth factor-1 (IGF-1) and erythropoietin (EPO) are induced in brain cells after brain ischemia and show synergistic neuroprotective effects. In LN215 astrocytoma cells, IGF-1 induced the activation of hypoxia-inducible factor-1, leading to increases in EPO mRNA levels and the secretion of EPO. Interestingly, blocking the potential action of secreted EPO on LN215 cells with EPO antibody, EPO receptor antibody, and soluble EPO receptor significantly suppressed the effect of IGF-1 on the biosynthesis of EPO. Synergistic action between IGF-1 and recombinant human EPO in the astrocytic production of EPO was observed. These data suggest that the IGF-1-EPO production/secretion process initiates a positive feedback loop of EPO biosynthesis in astrocytes, providing a molecular link between the two neuroprotective cytokines.
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PMID:Autocrine function of erythropoietin in IGF-1-induced erythropoietin biosynthesis. 1884 Oct 90

Diabetes mellitus (DM) can cause many systemic complications, including proliferative diabetic retinopathy (PDR). Retinal neovascularization (RNV) is the typical symptom of PDR, representing an important risk factor for severe vision loss in patients with DM. Diabetic hyperglycemia plays a major role in the destruction of retinal capillary walls, resulting in retinal ischemia and up-regulation of vascular endothelial growth factor (VEGF), leading to neovascularization. The transcriptional regulation of VEGF is mediated by transcription factor hypoxia-inducible factor 1 (HIF-1). Insulin is the mainstay of treatment for DM, but some studies have demonstrated that insulin had the ability to stimulate VEGF and HIF-1 expression in retinal pigment epithelial cells, retinal epithelial cells and vascular smooth muscle cells. In addition to the mitogenic effect of insulin makes it as an assistant agent has long been used in vitro cell culture. Other studies confirmed that insulin increased leukostasis in retinal microcirculation. Based on these experimental results, we hypothesize that long-term insulin therapy maybe improves the expression of VEGF and increase the risk of RNV, eventually deteriorates PDR in patients with DM.
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PMID:Insulin may cause deterioration of proliferative diabetic retinopathy. 1902 44

Cerebral hypoxia-ischemia during the perinatal period is the single most important cause of acute newborn mortality and chronic disability. Despite our increasing understanding of the mechanisms of neuronal injury, an effective clinical therapy has yet to be established to mitigate brain damage and improve the prognosis and well-being of these newborn patients. Insulin-like growth factor 1 (IGF-1) is a well-known neurotrophic factor, essential for the survival and functional maturation of immature neurons. This study demonstrated that subcutaneous administration of IGF-1 at 24 and 48 hours of recovery significantly reduced hypoxia-ischemia-induced injury to immature rat brains and improved long-term memory and cognitive behavior. IGF-1's therapeutic effects likely involve its ability to prevent delayed apoptosis, as we demonstrated in primary cortical neuronal cultures under oxygen and glucose deprivation. IGF-1's neuroprotective effects parallel the activities of phosphatidylinositol-3/Akt and its down-stream signaling pathway, suggesting a potential mechanistic link. Overall, evidence from this investigation strongly supports IGF-1's potential therapeutic use in the treatment of hypoxic-ischemic encephalopathy in newborn patients.
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PMID:Delayed IGF-1 treatment reduced long-term hypoxia-ischemia-induced brain damage and improved behavior recovery of immature rats. 1950 Apr 51

Insulin-like growth factor-1 (IGF-1) protects neurons from apoptosis and in vivo offers neuroprotective support to hippocampal CA1 pyramidal neurons following ischemia or seizure. IGF-1 signals through IGF-1 receptors activating phosphytidylinositol 3-kinase (PI3K)/Akt or pMAPK pathways. IGF-1 can be induced with injury and microglia and astrocytes may serve as a source of this neurotrophic factor to promote neuronal survival. An acute systemic injection of trimethyltin (TMT; 2 mg/kg, ip) to mice induces apoptosis of dentate granule neurons within 24 h and a differential response of microglia with ramified microglia present in the CA-1 region. Using this model, we studied the role of IGF-1 in the survival of CA-1 pyramidal neurons under conditions of altered synaptic input due to changes in the dentate gyrus. Within 24 h of injection, IGF-1 mRNA levels were elevated in the hippocampus and IGF-1 protein detected in both astrocytes and microglia. IGF-1 was redistributed within the CA-1 neurons corresponding with an increase in cytoplasmic pAkt, elevated PKBalpha/Akt protein levels, and a decrease in the antagonist, Rho. pMAPK was not detected in CA-1 neurons and ERK2 showed a transient decrease followed by a significant increase, suggesting a lack of recruitment of the pMAPK signaling pathway for neuronal survival. In mice deficient for IGF-1, a similar level of apoptosis was observed in dentate granule neurons as compared to wildtype; however, TMT induced a significant level CA-1 neuronal death, further supporting a role for IGF-1 in the survival of CA-1 neurons.
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PMID:IGF-1 and pAKT signaling promote hippocampal CA1 neuronal survival following injury to dentate granule cells. 1952 77

Insulin has been shown to possess significant anti-apoptotic effect in myocardial ischemia/reperfusion (MI/R). However, the contribution by this protection of insulin to the prolonged cardiac function in rats subjected to ischemia remains unclear. The present study attempted to test whether early insulin treatment influences adverse prolonged post-ischemic cardiac structural and functional changes. Adult male rats were subjected to left anterior descending coronary artery occlusion and were randomized to receive one of the following treatments: saline (4 ml/kg/h i.v. injection beginning 10 min before the ischemia and continuing for 2 h), insulin (60 U/l, i.v. injection following the same routine, and hypodermic injection of insulin (0.5 U/ml, 1 ml/kg/d) for 3 days after the ischemia surgery) or insulin plus wortmannin (15 mug/kg i.v. injection 15 min before each insulin administration). Treatment with insulin significantly reduced infarct size, decreased plasma creatine kinase and lactate dehydrogenase activities, decreased apoptosis index and caspase-3 activity (all P < 0.01 vs. saline), and improved cardiac function 24 h after ischemia. Importantly, at the end of 4 weeks after the ischemia surgery, MI rats receiving insulin treatment showed smaller left ventricle (LV) cavity and thicker systolic interventricular septum, and increased cardiac ejection fraction and LV fractional shortening (all P < 0.05 vs. saline). Inhibition of insulin signaling with wortmannin not only blocked insulin's anti-apoptotic effect, but also almost completely abolished effects of insulin on cardiac structure and function. These data indicate that inhibition of apoptosis by early insulin treatment alleviates chronic adverse changes in post-ischemic cardiac structure and function.
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PMID:Insulin inhibits myocardial ischemia-induced apoptosis and alleviates chronic adverse changes in post-ischemic cardiac structure and function. 1959 Sep 63

Insulin-like growth factors-I and -II (IGF-I and -II) and their receptors are present in the central nervous system but their role in brain function is unknown. To elucidate this issue, we investigated the cellular pattern of expression for IGF-I and -II, their receptors, and binding proteins using in situ hybridization and immunocytochemistry in the setting of experimental focal cortical ischemia. There was a striking increase in both IGF-I and IGF-II gene expression in the ischemic cerebral cortex, but the two mRNAs were found in different cell populations. IGF-I mRNA was localized in reactive astrocytes that also stained intensely for glial fibrillary acidic protein (GFAP). IGF-II mRNA and immunoreactivity were contained in activated macrophages, which were highly abundant in the infarct zone and also in the meninges, blood vessels, and choroid plexus of the ischemic brain. High levels of IGF binding protein 2 mRNA were colocalized with IGF-II in these activated macrophages. Type-I IGF receptor mRNA was widely distributed in the affected area and type-II IGF receptor mRNA was also widely expressed but was particularly concentrated in macrophages. These findings suggest that the IGFs are involved in the brain's inflammatory response to injury, with IGF-I expressed by reactive astrocytes and IGF-II by activated macrophages. Their function in this setting is still unknown, but appears likely to be linked to the increased metabolic requirements associated with active phagocytosis.
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PMID:Insulin-like growth factors in the response to cerebral ischemia. 1991 43

Pancreas procurement for islet isolation and transplantation is limited by concerns for the detrimental effects of postmortem ischemia. Hypothermic machine perfusion (HMP) preservation technology has had a major impact in circumventing ischemic injury in clinical kidney transplantation and is applied here to the preservation and procurement of viable islets after hypothermic perfusion preservation of porcine pancreata because pigs are now considered the donor species of choice for xenogeneic islet transplantation. Pancreases were surgically removed from young (<6 months) domestic Yorkshire pigs (25-32 kg), either before or after 30 min of warm ischemia time (WIT), and cannulated for perfusion. Each pancreas was assigned to one of six preservation treatment groups: fresh controls-processed immediately (cold ischemia <1 h) (G1, n = 7); static cold storage-flushed with cold UW-Viaspan and stored in UW-Viaspan at 2-4 degrees C for 24 h with no prior WIT (G2, n = 9); HMP perfused on a LifePort(R) machine at 4-6 degrees C and low pressure (10 mmHg) for 24 h with either KPS1 solution (G3, n = 7) or Unisol-UHK (G4, n = 7). Additional treatment groups to evaluate the effects of prior warm ischemia examined islet isolation after 30 min WIT in situ without (G5, n = 6) or with subsequent 24-h HMP with KPS1 (G6, n = 7). The pancreas was intraductally distended with Liberase PI enzyme and normothermically digested. The isolated islets were purified by a continuous density-gradient centrifugation. Perfusion-induced glandular edema was G3 = 138 +/- 19%, G4 = 160 +/- 16%, and G6 = 127 +/- 22%. Islet yield (IEQ/g of pancreas) varied between the groups: G1 = 1,425 +/- 610, G2 = 1,002 +/- 262, G3 = 2,242 +/- 449 (p < 0.05 vs. G2), G4 = 1,901 +/- 420 (p < 0.05 vs. G2), G5 = 1,756 +/- 329, and G6 = 1,396 +/- 243. Islet stimulation indices were equivalent between the groups and similar to controls (G1). Insulin content (ng/IE) was different between the treatment groups with the highest insulin content in islets harvested from HMP pancreata. Dithizone staining for islets consistently showed more uniform digestion of the perfused organs, with greater separation of the tissue, less entrapped islets, and higher islet yield and purity. The salutary effects of HMP for 24 h were also manifest after 30-min prior warm ischemia. We conclude that 24 h of HMP is well tolerated, leading to moderate edema but no loss of function of the harvested islets. The edema appears to aid in enzymatic digestion, producing a greater yield and purity of islets compared with pancreas subjected to 24 h of static cold storage.
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PMID:Islet isolation from juvenile porcine pancreas after 24-h hypothermic machine perfusion preservation. 2014

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