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)

Vascular endothelial growth factor (VEGF) has been found to be the most powerful angiogenic factor. Studies have shown that cerebral ischemia and hypoxia stimulate the expressions of VEGF and its receptors in the brain, while exogenous VEGF promotes the formation of new blood vessels in the ischemic brain penumbra, and reduce the volume of cerebral infarction. The effect of VEGF on cerebral ischemia was previously explained the mechanism that VEGF had a specific mitogenetic roles in cerebral endothelial cells and thus promoted neovascularization; however recent evidence has shown that VEGF also has direct effects on neural and glial cells. Its multiple protection roles on central nervous system involve vascularization, neurogenesis, direct neurotrophic and neuroprotective effect, as well as antiapoptosis effect, especially when brain ischemia occurs. Further elucidation of these mechanisms on central nervous system may serve as a key procedure in understanding the main aspects of neural repair and neural protection, and develop effective therapeutic measures for intervention in stroke.
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PMID:[Recent advance in experimental study of cerebral ischemia treated by vascular endothelial growth factor]. 1578 6

The aim of this study was to evaluate the role of proangiogenic growth factors in an experimental model of ischemia/reperfusion injury (I/R) in both normotensive and hypertensive rats. Renal ischemic injury was induced in transgenic rats rendered hypertensive due to renin overproduction [TGR (mREN-2)-27] and in normotensive Hannover Sprague-Dawley rats (HanSD). Animals were treated for 12 weeks with either tacrolimus (TAC, 0.1 mg/kg per day, intramuscularly [IM]) or placebo. After 12 weeks, kidneys were harvested for morphologic, immunohistochemical, and RT-PCR analysis. Both normotensive and hypertensive untreated rats developed significantly greater proteinuria and glomerulosclerosis compared with TAC-treated rats. Immunohistologically, TGR showed higher basic fibroblast growth factor (bFGF) protein expression compared with normotensive HanSD. TAC-treated rats had higher bFGF protein expression than untreated rats. Vascular endothelial growth factor (VEGF) protein expression in glomeruli was more increased in TGR after I/R than in sham-operated animals. TAC-treated TGR hosts developed higher VEGF mRNA expression compared with both untreated and sham groups; however, there were no differences between treated and untreated normotensive HanSD animals. bFGF is involved in the fibrogenesis induced by hypertension and I/R injury. The nature of the increase in proangiogeneic growth factor expression among tacrolimus-treated animals remains to be elucidated.
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PMID:Regulators of angiogenesis in renal ischemia/reperfusion injury in normotensive and hypertensive rats: effect of tacrolimus. 1580 41

Delayed administration of vascular endothelial growth factor (VEGF) promotes functional recovery after focal cerebral ischemia. However, early intravenous injection of VEGF increases blood-brain barrier (BBB) leakage, hemorrhagic transformation and infarct volume whereas its application to cortical surface is neuroprotective. We have investigated whether or not early intracerebroventricular administration of VEGF could replicate the neuroprotective effect observed with topical application and the mechanism of action of this protection. Mice were subjected to 90 mins middle cerebral artery (MCA) occlusion and 24 h of reperfusion. Vascular endothelial growth factor (8 ng, intracerebroventricular) was administered 1 or 3 h after reperfusion. Compared with the vehicle-treated (intracerebroventricular) group, VEGF decreased the infarct volume along with BBB leakage in both treatment groups. Neurologic disability scores improved in parallel to the changes in infarct volume. Independently of the decrease in infarct size, VEGF also reduced the number of TUNEL-positive apoptotic neurons. Phospo-Akt levels were significantly higher in ischemic hemispheres of the VEGF-treated mice. Contrary to intracerebroventricular route, intravenous administration of VEGF (15 microg/kg) enhanced the infarct volume as previously reported for the rat. In conclusion, single intracerebroventricular injection of VEGF protects brain against ischemia without adversely affecting BBB permeability, and has a relatively long therapeutic time window. This early neuroprotective action, observed well before recovery-promoting actions such as angiogenesis, possibly involves activation of the PI-3-Akt pathway.
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PMID:VEGF protects brain against focal ischemia without increasing blood--brain permeability when administered intracerebroventricularly. 1582 18

Vascular endothelial growth factor (VEGF) is a unique growth factor associated with angiogenesis, vascular permeability, and neuroprotection. The aim of this study was to observe the effects of early intraarterial infusion of low-dose VEGF on ischemia/reperfusion injury after transient focal cerebral ischemia in rats. Male Sprague-Dawley rats were subjected to 2 h of focal ischemia by middle cerebral artery occlusion. After the 2 h ischemia, the rats were infused with 0.3 microg/kg of VEGF (n = 15), or the vehicle as a control (n = 15), via the reperfused internal carotid artery. The brains were collected after a 1 h, 6 h, or 72 h reperfused period. Severity of ischemic cellular injury, serum extravasation, hemorrhagic transformation, and matrix metalloproteinase (MMP)-2 and -9 expressions were compared between the VEGF-treated and control groups. No significant difference in the extent of ischemic cellular injury and serum extravasation was observed between the two groups. However, vessel numbers with hemorrhagic transformation were significantly greater in the VEGF-treated group than in the control group after the 72 h reperfusion (9.4 +/- 1.6 versus 2.6 +/- 1.5; P = 0.028). The severity of hemorrhagic transformation was not correlated with the extent of ischemic cellular injury or serum extravasation. MMP-2 and -9 expressions were not enhanced in the VEGF-treated group compared with the control group. These results suggest that exogenous VEGF administered intravascularly at a very early point in reperfusion aggravates hemorrhagic transformation. The aggravated hemorrhagic transformation does not seem to depend on the enlargement of ischemic cellular injury, serum extravasation, or overexpressions of MMP-2 and -9.
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PMID:Aggravation of hemorrhagic transformation by early intraarterial infusion of low-dose vascular endothelial growth factor after transient focal cerebral ischemia in rats. 1593 98

Therapeutic angiogenesis provides a potential alternative for the treatment of cardiovascular ischemic diseases. Vascular endothelial growth factor (VEGF) is an important component of the angiogenic response to ischemia. Here we used adeno-associated virus (AAV) gene delivery to skeletal muscle to examine the effects of VEGF vs. a stabilized form of hypoxia-inducible factor-1alpha (HIF-1alpha). The recombinant AAVs were injected into mouse tibialis anterior muscle, and their effects were analyzed by immunohistochemistry and functional assays. These analyses showed that stabilized HIF-1alpha markedly increase capillary sprouting and proliferation, whereas VEGF164 or VEGF120 induced only proliferation of endothelial cells without formation of proper capillary structures. The Evans Blue permeability assay indicated that, unlike VEGF, HIF-1alpha overexpression did not increase vascular leakiness in the transduced muscle. Doppler ultrasound imaging showed that vascular perfusion in the HIF-1alpha treated muscles was significantly enhanced when compared to the controls and not further improved by co-expression of the arteriogenic growth factors angiopoietin-1 or platelet-derived growth factor-B. Our results show that AAV-mediated transduction of a stabilized form of HIF-1alpha can circumvent the problems associated with overexpression of individual angiogenic growth factors. HIF-1alpha should thus offer a potent alternative for pro-angiogenic gene therapy.
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PMID:Stabilized HIF-1alpha is superior to VEGF for angiogenesis in skeletal muscle via adeno-associated virus gene transfer. 1595 22

The blind subterranean mole rat superspecies Spalax ehrenbergi has evolved adaptations that allow it to survive and carry out intensive activities in its highly hypoxic underground sealed burrows. A key component of this adaptation is a higher capillary density in some Spalax tissues, primarily in muscles used in digging and in other energetic activities, resulting in a shorter diffusion distance for oxygen. Vascular endothelial growth factor (VEGF) is an angiogenic factor that is critical for angiogenesis during development and is found in response to tissue ischemia. We demonstrate here that due to physiological differences, the Spalax muscle regulatory mechanism for VEGF is different than in Rattus muscle. In vivo, the constitutive level of the VEGF mRNA and the mRNA levels of its transcriptional regulator HIF-1alpha and its mRNA stabilizer HuR are significantly higher in Spalax muscle than in Rattus muscle. Furthermore, as opposed to Rattus, the mRNA levels of HIF-1alpha, HuR, VEGF, as well as that of LDH-A, the enzyme that catalyzes the production of lactate, an accepted marker of anaerobic metabolism, are not increased in Spalax after hypoxia. However, ex vivo, when oxygenation by blood vessels is no longer relevant, the expression pattern of all these genes is similar in the two rodents under both normoxic and hypoxic conditions. Our studies provide evidence that the highly vascularized muscle in Spalax, the most energy consuming tissue during digging, is resistant to the effects of oxygen deprivation. The significance of these results with respect to ischemic vascular disease is abundantly clear.
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PMID:Increased blood vessel density provides the mole rat physiological tolerance to its hypoxic subterranean habitat. 1600 Mar 66

Vascular endothelial growth factor (VEGF) is one of the major mediators of retinal ischemia-associated neovascularization. We have shown here that adeno-associated virus (AAV)-mediated expression of sFlt-1, a soluble form of the Flt-1 VEGF receptor, was maintained for up to 8 and 17 months postinjection in mice and in monkeys, respectively. The expression of sFlt-1 was associated with the long-term (8 months) regression of neovascular vessels in 85% of trVEGF029 eyes. In addition, it resulted in the maintenance of retinal morphology, as the majority of the treated trVEGF029 eyes (75%) retained high numbers of photoreceptors, and in retinal function as measured by electroretinography. AAV-mediated expression of sFlt-1 prevented the development of laser photocoagulation-induced choroidal neovascularization in all treated monkey eyes. There were no clinically or histologically detectable signs of toxicity present in either animal model following AAV.sFlt injection. These results suggest that AAV-mediated secretion gene therapy could be considered for treatment of retinal and choroidal neovascularizations.
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PMID:Long-term evaluation of AAV-mediated sFlt-1 gene therapy for ocular neovascularization in mice and monkeys. 1602 93

Vascular endothelial growth factor (VEGF)-mediated physiological angiogenesis results from the concerted action of three major VEGF isoforms (VEGF121, 165, 189), which arise from alternate splicing. We have previously shown that expression of a mixture of VEGF isoforms via gene transfer is considerably more potent than expression of a single VEGF isoform. To test the hypothesis that different mixtures of VEGF isoforms may offer the same therapeutic benefit with a better safety profile, we compared the efficacy and safety of an adenovirus gene transfer vector expressing the three major VEGF isoforms (AdVEGF-All) in the normal ratio to those of AdVEGF-All6A+, in which the splicing sequences for exon 6A were altered to promote expression of VEGF189 at the expense of VEGF121. Both vectors were equally potent in mediating recovery of hind-limb blood flow following experimental ischemia. By contrast, intravenous administration of AdVEGF-All6A+ yielded enhanced survival and a lower capacity to support tumor growth compared to AdVEGF-All, and intratracheal administration of AdVEGF-All6A+ resulted in less pulmonary edema than that of AdVEGF-All. We conclude that AdVEGF-All and AdVEGF-All6A+ are similar in potency but that AdVEGF-All6A+ is safer. This suggests that AdVEGF-All6A+ may be the preferred candidate for clinical development.
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PMID:Alteration of splicing signals in a genomic/cDNA hybrid VEGF gene to modify the ratio of expressed VEGF isoforms enhances safety of angiogenic gene therapy. 1603 63

Localized tissue ischemia is a key factor in the development and poor prognosis of chronic wounds. Currently, there are no standardized animal models that provide sufficient tissue to evaluate the effect of modalities that may induce angiogenesis, and in vitro models of angiogenesis do not mimic the complexity of the ischemic wound bed. Therefore, we set out to develop a reproducible ischemic model for use in wound-healing studies. Male Sprague-Dawley rats underwent creation of dorsal bipedicle skin flaps with centrally located excisional wounds. Oxygen tension, wound-breaking strength, wound area, lactate, and wound vascular endothelial growth factor (VEGF) were compared in flaps measuring 2.5 and 2.0 x 11 cm with and without an underlying silicone sheet. We found that the center of the 2.0 cm flap with silicone remains in the critically ischemic range up to 14 days without tissue necrosis (33+/-4 vs. 49+/-6 mmHg in controls). Wound healing and breaking strength were significantly impaired and tissue lactate from the center of this flap was 2.9 times greater than tissue from either nonischemic controls and 2.5 cm flap (0.23+/-0.05 mg/dL/mg sample vs. 0.09+/-0.02 and 0.08+/-0.02, respectively). Vascular endothelial growth factor was 2 times greater than the nonischemic control. This ischemic wound model is relatively inexpensive, easy to perform, reproducible, and reliable. The excisional wounds provide sufficient tissue for biochemical and histologic analysis, and are amenable to the evaluation of topical and systemic therapies that may induce angiogenesis or improve wound healing.
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PMID:Optimization and validation of an ischemic wound model. 1628 73

Vascular endothelial growth factor (VEGF) is thought to contribute to both neuroprotection and angiogenesis after stroke. While increased expression of VEGF has been demonstrated in animal models after experimental ischemia, these studies have focused almost exclusively on the infarct and peri-infarct regions. The present study investigated the association of VEGF to neurons in remote cortical areas at three days after an infarct in primary motor cortex (M1). Although these remote areas are outside of the direct influence of the ischemic injury, remote plasticity has been implicated in recovery of function. For this study, intracortical microstimulation techniques identified primary and premotor cortical areas in a non-human primate. A focal ischemic infarct was induced in the M1 hand representation, and neurons and VEGF protein were identified using immunohistochemical procedures. Stereological techniques quantitatively assessed neuronal-VEGF association in the infarct and peri-infarct regions, M1 hindlimb, M1 orofacial, and ventral premotor hand representations, as well as non-motor control regions. The results indicate that VEGF protein significantly increased association to neurons in specific remote cortical areas outside of the infarct and peri-infarct regions. The increased association of VEGF to neurons was restricted to cortical areas that are functionally and/or behaviorally related to the area of infarct. There was no significant increase in M1 orofacial region or in non-motor control regions. We hypothesize that enhancement of neuronal VEGF in these functionally related remote cortical areas may be involved in recovery of function after stroke, through either neuroprotection or the induction of remote angiogenesis.
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PMID:VEGF protein associates to neurons in remote regions following cortical infarct. 1663 24

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