Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The renal growth hormone--insulin-like growth factor-I system in acute ischemic renal failure. Recovery from acute tubular necrosis (ATN) is accelerated by IGF-I therapy. Furthermore, the local renal growth hormone-IGF-I system may participate in the natural repair. We examined the IGF-I system in rat kidneys subjected to 60 minute ischemia compared to sham operated controls. Two days after injury, growth hormone receptor mRNA and IGF-I mRNA levels fell approximately 9 to 33% of control values. This was associated with a reduction in kidney immunoreactive IGF-I levels. In contrast, IGF-I receptor mRNA abundance was unchanged. However, plasma membrane IGF-I receptor binding on day 2 and day 7 was near double the control values (P < 0.01). Scatchard analysis revealed a near twofold increase in receptor number. Since receptor mRNA levels were unchanged, this implies receptor protein up-regulation. In contrast to unchanged IGF-I receptor mRNA levels, the abundance of mRNA levels of insulin-like growth factor binding proteins (IGFBP) -2, -3, -4 and -5 fell approximately 14 to 62% of control levels day 2 after injury (P < 0.05), suggesting reduced IGFBP production. Thus, the renal response to ischemic ATN, namely, low IGFBP mRNA levels and high IGF-I receptor number, may function to increase IGF-I bioavailability and thereby enhance the reparative actions of local and circulating IGF-I in ischemic ATN.
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PMID:Renal growth hormone--insulin-like growth factor-I system in acute renal failure. 754 60

Renal tubular cells do not proliferate under normal intact conditions, whereas a marked regeneration is evident when tubular cells are injured by renal toxins or by ischemia. In case of compensatory renal growth too, hyperplasia of renal proximal tubular cells is observed. Various growth factors, including epidermal growth factor (EGF) and insulin-like growth factor-I (IGF-I) seem to be involved in renal regeneration, however, the physiological role of these growth factors for the natural course of the renal regeneration have yet to be established. Hepatocyte growth factor (HGF), a potent mitogen for cultured renal tubular cells, may function as a renotropic factor, which enhances regeneration of the kidney. Once renal tubular cells are damaged by some agents, HGF mRNA, HGF activity and DNA synthesis of renal tubular cells are sequentially increased. Since both HGF mRMA and HGF protein are localized in renal interstitial cells, HGF seems to act on the tubular cells as a paracrine mediator. In addition to these results, HGF has multiple biological functions. This suggests that HGF possesses biological activities essential for renal regeneration.
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PMID:[Hypertrophy and hyperplasia of renal tubular interstitial cells--regulatory factors]. 756 25

Acute renal failure in rats was induced by transient occlusion of bilateral renal arteries and veins to investigate whether insulin-like growth factor-I (IGF-I) has an effect on the damaged renal function or not. Administration of IGF-I at 0.01, 0.1 and 1 mg/kg by s.c. injection caused a 18.7, 33.0 and 66.5% increase of glomerular filtration rate and 54.8, 61.2 and 84.1% decrease of blood urea nitrogen, respectively, compared with the values in the saline-treated group 2 days after ischemia. Other renal parameters tested such as fractional excretion of sodium, N-acetyl-beta-D-glucosaminidase and tubular reabsorptance of phosphorus which are thought to represent renal function of proximal and distal tubules, respectively, were also improved by IGF-I treatment. A histochemical study also supported these observations. Severe epithelial necrosis of proximal tubules and decrease of brush borders were observed 2 days after transient ischemia in the saline-treated group, whereas marked histochemical alterations were not observed in the IGF-I-treated group. L-NG-nitroarginine, an inhibitor of nitric oxide synthetase, prevented the improvement of glomerular filtration rate and blood urea nitrogen by IGF-I at 1 mg/kg, suggesting that the ameliorative action on renal function by IGF-I is mediated via nitric oxide, possibly its vasodilating action. These findings provide the first evidence for the efficacy of IGF-I in the model of acute renal failure, suggesting that IGF-I may be useful for the treatment of acute renal failure.
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PMID:Insulin-like growth factor-I ameliorates transient ischemia-induced acute renal failure in rats. 824 68

The mammalian kidney is susceptible to injury by ischemia/reperfusion and toxins, and regeneration after injury is characterized by hyperplasia and recovery of the damaged epithelial cells that line the tubules. Locally produced growth factors may serve as mediators of nephrogenesis and differentiation during renal development and of renal regeneration after acute injury. In cultured cells, administration of one or a mixture of growth factors to quiescent cells will initiate progression through the cell cycle and cell division. In the adult kidney, cell division normally is very low, but will increase up to 10-fold after acute injury. In addition to proliferation after lethal injury, there also is cellular repair in cells that have undergone sublethal injury. Recent studies indicate that growth factors inhibit programmed cell death in response to acute injury. Growth factors also may initiate or promote protein and lipid biosynthesis and provide an intracellular milieu that promotes cellular repair. In addition to cellular repair, growth factors also may be involved in the re-establishment of cell-extracellular matrix and cell-cell integrity. Finally, growth factors may limit injury by decreasing the factors that induce damage. Increased local renal expression of growth factors in response to acute injury include heparin binding epidermal growth factor (HB-EGF), hepatocyte growth factor (HGF), insulin-like growth factor-I (IGF-I), transforming growth factor-beta, parathyroid hormone-related peptide, and acidic fibroblast growth factor. In a number of experimental models of acute renal injury, administration of exogenous growth factors has been shown to accelerate both structural and functional recovery. Specifically, EGF, IGF-1, and HGF all have been shown to be effective in this regard. These studies are reviewed and potential therapeutic uses of growth factors and cytokines will be discussed.
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PMID:Growth factors and cytokines in acute renal failure. 911 40

Retinal neovascularization is the major cause of untreatable blindness. The role of growth hormone (GH) in ischemia-associated retinal neovascularization was studied in transgenic mice expressing a GH antagonist gene and in normal mice given an inhibitor of GH secretion (MK678). Retinal neovascularization was inhibited in these mice in inverse proportion to serum levels of GH and a downstream effector, insulin-like growth factor-I (IGF-I). Inhibition was reversed with exogenous IGF-I administration. GH inhibition did not diminish hypoxia-stimulated retinal vascular endothelial growth factor (VEGF) or VEGF receptor expression. These data suggest that systemic inhibition of GH or IGF-I, or both, may have therapeutic potential in preventing some forms of retinopathy.
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PMID:Essential role of growth hormone in ischemia-induced retinal neovascularization. 918 82

Perinatal asphyxia still constitutes a clinical hazard associated with considerable neurologic morbidity. Several growth factors, including insulin-like growth factor-I (IGF-I), have been reported to have a neuroprotective effect in experimental models of hypoxic ischemia (HI). In the present study, we have applied solution hybridization for quantification of the time course for mRNA expression of IGF-I, IGF-I receptor, and growth hormone (GH) receptor after HI in 7-d-old rats. There was a significant increase in IGF-I mRNA in the damaged hemisphere 72 h (1.19 +/- 0.28 vs 0.48 +/- 0.02 amol/microg DNA, p < 0.05) and 14 d (0.61 +/- 0.18 vs 0.19 +/- 0.05 amol/microg DNA, p < 0.05) after HI. In the contralateral hemisphere, both IGF-I and GH receptor mRNA had increased by 14 d after the insult (0.36 +/- 0.042 vs 0.13 +/- 0.011, p < 0.05, and 0.31 +/- 0.013 vs 0.11 +/- 0.004 amol/microg DNA, p < 0.001, respectively). There were no changes in IGF-I receptor mRNA throughout the study period. We have also evaluated the neuroprotective effect of GH after HI in neonatal rats. GH administered s.c. after HI in daily doses of 50 and 100 mg/kg provided a moderate neuroprotection of 20%. These results suggest a role for the GH/IGF-I axis in the neurochemical process leading to HI brain injury.
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PMID:Possible protective role of growth hormone in hypoxia-ischemia in neonatal rats. 1008 48

Phosphate-activated glutaminase (PAG) activity decreases markedly in the early period of ischemia. The decrease of the enzyme activity is reversible if the ischemic period is relatively short, but it becomes irreversible after 90 minutes of ischemia. The deterioration is a functional damage of the retinas caused by ischemia. We studied effects of growth factors and neurotrophic factors on protection of PAG in the ischemic and reperfused rat retinas. Before ischemia, 1 microl of growth factors or neurotrophic factors (0.1 microg/microl for insulin-like growth factor-I [IGF-I], insulin-like growth factor-II [IGF-II], brain-derived neurotrophic factor [BDNF], nerve growth factor [NGF]; 1 microg/microl for basic fibroblast growth factor [bFGF]) were injected into the vitreous cavity of the left eyes of anesthetized Sprague Dawley rats. As a control, phosphate buffered saline was injected to the right eyes. To induce ischemia, we clamped left eyes for 90 minutes after bulbar conjunctival incision all around limbus. The rat retinas were homogenized with distilled water 1 day after reperfusion and used for PAG assay. Retinal ammonia concentration was also determined as a ischemic marker. About 80% decrease of retinal PAG activity and 50% increase of retinal ammonia concentration were observed after 90 minutes of ischemia and 1 day of reperfusion as compared with unoperated normal eyes. IGF-II, BDNF and NGF had protective effects on the retinal PAG activity, whereas IGF-I, bFGF, stable bFGF were less effective. In addition, IGF-II and BDNF suppressed elevation of retinal ammonia concentration. BDNF, NGF and IGF-II have marked effect on the protection of PAG activity in the ischemic and reperfused rat retinas, whereas bFGF, which is very effective for the protection of ischemic cell death, shows moderate effect.
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PMID:Administration of nerve growth factor, brain-derived neurotrophic factor and insulin-like growth factor-II protects phosphate-activated glutaminase in the ischemic and reperfused rat retinas. 1045 79

Insulin-like growth factor-I (IGF-I) has been shown to produce a short-term positive inotropic effect (PIE) in the myocardium under nonischemic conditions. IGF-I also conferred cytoprotection against ischemia and reperfusion injury in various organs. IGF-I may, therefore, facilitate the recovery of postischemic cardiac function. Isolated and crystalloid-perfused rat heart was subjected to 25 min of normothermic ischemia followed by 30 min of reperfusion. IGF-I produced PIE in a dose-dependent manner at concentrations ranging between 1 and 100 nM under nonischemic conditions. Although 1 nM isoproterenol produced much greater PIE and myocardial energy conversion efficiency (MECE) than did 65 nM IGF-I in this condition, the same concentration of IGF-I administered during reperfusion conferred better recovery of left ventricular function and MECE compared with isoproterenol. The improved cardiac performance by IGF-I was associated with lower release of creatine kinase (CK). Wortmannin (100 nM), a specific inhibitor of phosphatidylinositol kinase (PI-3 kinase), abrogated IGF-I-induced improvement of contractile function and inhibition of CK release in the postischemic heart. We conclude that IGF-I administered during reperfusion accelerates recovery of cardiac performance and mitigates myocardial injury through a wortmannin-sensitive mechanism.
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PMID:Insulin-like growth factor-I improves recovery of cardiac performance during reperfusion in isolated rat heart by a wortmannin-sensitive mechanism. 1067 61

Vascular endothelial growth factor (VEGF) is known to be linked to retinal ischemia-associated neovascularization. It was recently found that insulin-like growth factor-I (IGF-I) enhances VEGF gene expression. In this study we investigated whether plasma VEGF levels are increased in patients with acromegaly, a disease in which plasma IGF-I levels are elevated, and whether plasma VEGF levels are correlated with plasma IGF-I levels in these patients. We retrospectively analyzed plasma samples from 13 active acromegalic patients (7 males and 6 females) aged 33 to 66 years, with a mean age of 52.3+/-10.8 years. The results were compared with plasma VEGF levels in 16 age- and sex-matched, healthy subjects (9 males and 7 females) aged 22 to 66 years, with a mean age of 52.4+/-11.5 years. Plasma VEGF levels were not higher in the acromegalic patients than in the healthy subjects (253+/-61 vs. 197+/-30 pg/mL, P= 0.39). In 5 patients plasma VEGF levels were rather slightly increased after pituitary adenomectomy while one patient showed a reduced plasma VEGF level. In addition there was no correlation between plasma VEGF and GH or IGF-I levels. These data indicate that plasma VEGF levels are not increased in patients with acromegaly and that serum VEGF may play a less important role in the neovascularization in the carcinogenesis and/or disturbances of the cardiovascular system in patients with acromegaly.
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PMID:Plasma levels of vascular endothelial growth factor in patients with acromegaly. 1098 29

Bcl-2 family proteins play a crucial role in the cytoprotective action of insulin-like growth factor-I (IGF-I) by regulating cell death signaling at the mitochondrial level. The present study examined the effect of IGF-I on the expression of Bcl-2 family proteins in the rat heart mitochondria in relation to myocardial protection against ischemia-reperfusion injury. Systemic IGF-I (1 mg) treatment in the rat increased Bcl-xL and attenuated Bax 12-24 h later in the heart mitochondria fraction. Permeability transition and cytochrome c release occurred in a Ca(2+) concentration-dependent manner in the vehicle-treated mitochondria. This was significantly inhibited by the IGF-I-pretreatment. Moreover, ATP synthesis was significantly greater in the IGF-I-pretreated mitochondria. IGF-I pretreatment 24 h before 25 min of global ischemia in the isolated rat heart model significantly improved recovery of isovolumic left ventricular function and inhibited creatine kinase release during reperfusion. This was associated with a significantly less number of terminal transferase labeling-positive myocytes and nonmyocytes 2 h after reperfusion. These results suggest that IGF-1 differentially regulates Bcl-xL and Bax in heart mitochondria, which may be causally related to myocardial protection against ischemia-reperfusion injury.
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PMID:IGF-I differentially regulates Bcl-xL and Bax and confers myocardial protection in the rat heart. 1117 63


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