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:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxidative damage to the vascular endothelial cells may play a crucial role in mediating glucose-induced cellular dysfunction in chronic diabetic complications. The present study was aimed at elucidating the role of glucose-induced alteration of highly inducible heme oxygenase (HO) in mediating oxidative stress in the vascular endothelial cells. We have also investigated the interaction between HO and the nitric oxide (NO) system, and its possible role in alteration of other vasoactive factors. Human umbilical vein endothelial cells (HUVECs) were exposed to low (5mmol/l) and high (25mmol/l) glucose levels. In order to determine the role of HO in endothelial dysfunction and to elucidate a possible interaction between the HO and NO systems, cells were exposed to HO inducer (hemin, 10 micromol/l), HO antagonist (SnPPIX, 10 micromol/l), and NO synthase blocker (L-NAME, 200 micromol/l) with or without NO donor (arginine, 1 mmol/l). mRNA expression of HO and NO isoforms was measured by real time RT-PCR. HO activity was measured by bilirubin production and cellular oxidative stress was assessed by 8-hydroxy-2'-deoxyguanosine (8-OHdG) and nitrotyrosine staining. We also determined the expression of vasoactive factors, endothelin-1 (ET-1) and vascular endothelial growth factor (VEGF). In the endothelial cells, glucose caused upregulation of HO-1 expression and increased HO activity. A co-stimulatory relationship between HO and NO was observed. Increased HO activity also associated with oxidative DNA and protein damage in the endothelial cells. Furthermore, increased HO activity augmented mRNA expression of vasoactive factors, ET-1 and VEGF. These data suggest that HO by itself and via elaboration of other vasoactive factors may cause endothelial injury and functional alteration. These findings are of importance in the context of chronic diabetic complications.
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PMID:Pro-oxidant role of heme oxygenase in mediating glucose-induced endothelial cell damage. 1576 54

Blastocyst implantation is a critical process in the establishment of pregnancy in eutherian mammals and requires a harmonious symbiosis between the developing conceptus and the differentiating maternal uterus. A better understanding of this symbiotic relationship will provide novel approaches and interventions for realizing anti-implantation strategies for effective fertility regulation and reproductive health care management. We have been using the rhesus monkey (Macaca mulatta) as a nonhuman primate model to this end. In the present study, the process of progesterone-mediated regulation of endometrial receptivity for blastocyst implantation has been targeted by the use of mifepristone as an emergency contraceptive agent. Furthermore, based on cell-specific, temporal and spatial distribution of vasotropic cytokines and mediators in the "receptive" and periimplantation periods, the pregnancy interceptive potentials of (a) monoclonal antibody (MAb) to leukemia inhibitory factor (LIF); (b) inhibitors of nitric oxide synthase [e.g., N6-nitro-l-arginine (l-NAME) and aminoguanidine]; and (c) MAb to vascular endothelial growth factor (VEGF) were examined. LIF is a progesterone-responsive pleiotropic cytokine that functions as a proinflammatory cytokine, together with interleukins 1 and 6, during the process of implantation-placentation in primates, and its immunoneutralization with MAb resulted in inhibition (p<.04) of pregnancy establishment in the rhesus monkey. However, timed administration of l-NAME or aminoguanidine failed to inhibit blastocyst implantation in a significant manner. Also, no synergistic antinidatory action of antiprogestin combined with l-NAME was detected in the rhesus monkey. The application of MAb to VEGF during the periimplantation period, on the other hand, led to significant (p<.04) prevention of pregnancy without influencing steroid hormone levels in the circulation. Our data lend support to the hypothesis that VEGF is essential for pregnancy establishment and that trophoblast-derived VEGF, acting via its specific receptors Flt-1 and KDR, is necessary for blastocyst implantation. The use of cDNA-based expression arrays followed by differential display analysis has provided preliminary understanding of the nature of gene cluster networks operative in the receptive endometrium of potential conception cycles in the rhesus monkey. This knowledge may, in the future, lead to further innovative anti-implantation strategies for targeted pregnancy interception.
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PMID:Target-oriented anti-implantation approaches for pregnancy interception: experiences in the rhesus monkey model. 1579 48

ANG II, a mediator of renal injury in diabetic renal disease, promotes vascular endothelial growth factor (VEGF) mRNA translation in proximal tubular epithelial (MCT) cells (Feliers D, Duraisamy S, Barnes JL, Ghosh-Choudhury G, and Kasimath BS. Am J Physiol Renal Physiol 288: F521-F529, 2005). The mechanism by which ANG II elicits this effect is not known. ANG II is known to induce oxidative stress and the rapidity of the effect suggested a role for reactive oxygen species (ROS). The aim of this study is to test the hypothesis that ANG II regulates VEGF mRNA translation in MCT cells through ROS production. In MCT cells exposed to 1 nM ANG II, ROS production was increased in a time-dependent manner. Inhibition of ROS production by N-acetylcysteine (NAC), a precursor of glutathione, and diphenyleneiodonium (DPI), an inhibitor of flavoproteins that include NAD(P)H oxidase, prevented ANG II-stimulated VEGF protein expression. NAC and DPI also inhibited phosphorylation of 4E-BP1 on Thr46 and association of eIF4E with eIF4G, steps that are important in the initiation phase of mRNA translation. NAC and DPI also blocked Akt activation which is required for 4E-BP1 phosphorylation. LY-294002, a selective phosphatidylinositol (PI 3-kinase) inhibitor, did not prevent ROS accumulation in response to ANG II, whereas DPI blocked ANG II activation of PI 3-kinase, demonstrating that ROS production is upstream of the PI 3-kinase signaling pathway. Preincubation with catalase abolished ANG II stimulation of VEGF expression and mRNA translation, suggesting involvement of hydrogen peroxide (H(2)O(2)). H(2)O(2) reproduced the effects of ANG II on VEGF expression and aforementioned parameters of mRNA translation. Finally, neither preincubation of MCT cells with specific inhibitors of the mitochondrial respiratory chain nor inactivation of the mitochondrial respiratory chain in MCT cells prevented ANG II stimulation of VEGF expression. Inhibition of nitric oxide synthase by l-NAME had no effect on ANG II stimulation of VEGF expression. These data show that ROS, generated probably through activation of an NAD(P)H oxidase, mediate ANG II stimulation of VEGF mRNA translation.
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PMID:Angiotensin II stimulation of VEGF mRNA translation requires production of reactive oxygen species. 1624 73

Safe, effective approaches for bone regeneration are needed to reverse bone loss caused by trauma, disease, and tumor resection. Unfortunately, the science of bone regeneration is still in its infancy, with all current or emerging therapies having serious limitations. Unlike current regenerative therapies that use single regenerative factors, the natural processes of bone formation and repair require the coordinated expression of many molecules, including growth factors, bone morphogenetic proteins, and specific transcription factors. As will be developed in this article, future advances in bone regeneration will likely incorporate therapies that mimic critical aspects of these natural biological processes, using the tools of gene therapy and tissue engineering. This review will summarize current knowledge related to normal bone development and fracture repair, and will describe how gene therapy, in combination with tissue engineering, may mimic critical aspects of these natural processes. Current gene therapy approaches for bone regeneration will then be summarized, including recent work where combinatorial gene therapy was used to express groups of molecules that synergistically interacted to stimulate bone regeneration. Last, proposed future directions for this field will be discussed, where regulated gene expression systems will be combined with cells seeded in precise three-dimensional configurations on synthetic scaffolds to control both temporal and spatial distribution of regenerative factors. It is the premise of this article that such approaches will eventually allow us to achieve the ultimate goal of bone tissue engineering: to reconstruct entire bones with associated joints, ligaments, or sutures. Abbreviations used: BMP, bone morphogenetic protein; FGF, fibroblast growth factor; AER, apical ectodermal ridge; ZPA, zone of polarizing activity; PZ, progress zone; SHH, sonic hedgehog; OSX, osterix transcription factor; FGFR, fibroblast growth factor receptor; PMN, polymorphonuclear neutrophil; PDGF, platelet-derived growth factor; IGF, insulin-like growth factor; TGF-beta, tumor-derived growth factor beta; CAR, coxsackievirus and adenovirus receptor; MLV, murine leukemia virus; HIV, human immunodeficiency virus; AAV, adeno-associated virus; CAT, computer-aided tomography; CMV, cytomegalovirus; GAM, gene-activated matrix; MSC, marrow stromal cell; MDSC, muscle-derived stem cell; VEGF, vascular endothelial growth factor.
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PMID:Biological approaches to bone regeneration by gene therapy. 1630 38

The objectives of this study were to observe the effect of overexpression of vascular endothelial growth factor (VEGF) on the proliferation of the malignant melanoma (MM) cell line A375, and to study the role of nitric oxide (NO) in this process and the mechanism of VEGF induced-A375 cell proliferation. The VEGF(165) cDNA was transfected into A375 cells by electroporation. VEGF mRNA and protein in A375 cells were detected by RT-PCR and ELISA. The proliferation of A375 cells was assessed by cell counting and MTT assay. Protein expression of iNOS, eNOS and nNOS was detected by Western blotting. NO production in A375 cell supernatant was measured by the nitrate reductase method. VEGF mRNA in A375 cells was significantly increased 72 h and 96 h after transfection of VEGF(165) cDNA, as were VEGF protein, NO and iNOS levels. However, protein expression of eNOS and nNOS was not detected in either transfected or untransfected cells. Proliferation of A375 cells transfected with VEGF(165) cDNA was enhanced. The nitric oxide synthase inhibitor l-NAME could dose-dependently inhibit the proliferation of A375 cells evoked by VEGF. These results indicate that VEGF enhances the expression of iNOS in A375 cells and results in an increase in NO formation, which may be important in the process of VEGF-induced proliferation of A375 cells.
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PMID:Endogenous production of nitric oxide contributes to proliferation effect of vascular endothelial growth factor-induced malignant melanoma cell. 1630 95

Alliin, a compound derived from garlic, demonstrated dose-dependent inhibition of fibroblast growth factor-2 (FGF2)-induced human endothelial cell (EC) tube formation and angiogenesis in the chick chorioallantoic membrane (CAM) model. Additionally, alliin demonstrated potent inhibition of vascular endothelial growth factor (VEGF)-induced angiogenesis in the CAM model. The antioxidant vitamins C and E significantly (P < 0.001) enhanced the inhibitory efficacy of alliin on FGF2-induced EC tube formation and angiogenesis. Alliin significantly increased (P < 0.01) nitric oxide (NO) release into the CAM fluid, which was further enhanced by vitamins C and E. The NO synthesis inhibitor nitro-L-arginine methyl ester (L-NAME) reversed the anti-angiogenesis efficacy of alliin in the CAM model. Vitamins C and E significantly enhanced the anticancer efficacy of alliin in inhibiting colon and fibrosarcoma tumor growth. Alliin significantly inhibited both FGF2 and VEGF secretion from human fibrosarcoma cells in a concentration-dependent manner. Additionally, alliin up-regulated the p53 production in FGF2-stimulated EC. These data indicated a synergistic effect of antioxidants on the anti-angiogenesis and anticancer efficacy of alliin. These data also suggest the implication of cellular NO and p53 as mediators of anti-angiogenesis and anticancer effects of alliin.
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PMID:Anti-angiogenesis efficacy of the garlic ingredient alliin and antioxidants: role of nitric oxide and p53. 1635 12

Endothelial progenitor cells (EPC) are known to contribute to wound healing, but the physiologic triggers for their mobilization are often insufficient to induce complete wound healing in the presence of severe ischemia. EPC trafficking is known to be regulated by hypoxic gradients and induced by vascular endothelial growth factor-mediated increases in bone marrow nitric oxide (NO). Hyperbaric oxygen (HBO) enhances wound healing, although the mechanisms for its therapeutic effects are incompletely understood. It is known that HBO increases nitric oxide levels in perivascular tissues via stimulation of nitric oxide synthase (NOS). Here we show that HBO increases bone marrow NO in vivo thereby increasing release of EPC into circulation. These effects are inhibited by pretreatment with the NOS inhibitor l-nitroarginine methyl ester (l-NAME). HBO-mediated mobilization of EPC is associated with increased lower limb spontaneous circulatory recovery after femoral ligation and enhanced closure of ischemic wounds, and these effects on limb perfusion and wound healing are also inhibited by l-NAME pretreatment. These data show that EPC mobilization into circulation is triggered by hyperoxia through induction of bone marrow NO with resulting enhancement in ischemic limb perfusion and wound healing.
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PMID:Endothelial progenitor cell release into circulation is triggered by hyperoxia-induced increases in bone marrow nitric oxide. 1679 67

Previous studies from this laboratory suggest that during maturation, rapid microvascular growth is accompanied by changes in the mechanisms responsible for regulation of tissue blood flow. To further define these changes, we studied isolated gracilis muscle arterioles from weanling ( approximately 25 days) and juvenile ( approximately 44 days) Sprague-Dawley rats to test the hypothesis that endothelial mechanisms for the control of arteriolar tone are altered with growth. Responses to the endothelium-dependent dilator acetylcholine (ACh) were greater in weanling arterioles (WA) than in juvenile arterioles (JA), whereas there were no consistent differences between age groups in arteriolar responses to other endothelium-dependent agonists (A-23187, vascular endothelial growth factor, and simvastatin). Inhibition of nitric oxide synthase (NOS) with N(omega)-nitro-l-arginine methyl ester (l-NAME) attenuated ACh-induced dilation in JA but not in WA. In JA, combined inhibition of NOS and cyclooxygenase (with indomethacin) reduced the dilator responses to ACh and simvastatin by approximately 90% and approximately 70%, respectively, but had no effect in WA. Cytochrome P450 epoxygenase inhibition [with 2-(propargyloxyphenyl) hexanoic acid] had no effect on responses to ACh or simvastatin in either age group. Inhibition of Ca(2+)-activated or ATP-dependent potassium channels (with tetraethylammonium or glibenclamide, respectively) reduced these arteriolar responses in JA but not those in WA. These findings suggest that in fully grown microvascular networks, endothelium-dependent arteriolar dilation is mediated by the combined release of endothelial nitric oxide and vasodilator prostanoids, and in part through activation of Ca(2+)-activated and ATP-dependent potassium channels. However, during earlier microvascular growth, this dilation is mediated by other factors yet to be identified. This may have significant implications for the regulation of tissue perfusion during microvascular development.
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PMID:Growth-dependent changes in endothelial factors regulating arteriolar tone. 1693 4

Morphometric methodologies were developed and applied to investigate the patterns of vascular development in maternal (caruncular; CAR) and fetal (cotyledonary; COT) sheep placentas throughout the last two thirds of gestation. We also examined the expression levels of the major angiogenic factors and their receptors in CAR and COT sheep placentas. Although the vascularity of the CAR tissues increased continuously from Day 50 through Day 140 of pregnancy, those of the COT tissues increased at about twice the instantaneous rate (i.e., the proportionate increase/day) of the CAR. For CAR, vascularity increased 2-fold from Day 50 through Day 140 via relatively small increases in capillary number and 2- to 3-fold increases in capillary diameter. For COT, the increased vascularity resulted from a 12-fold increase in capillary number associated with a concomitant 2-fold decrease in capillary diameter. This large increase in fetal placental capillary number, which was due to increased branching, resulted in 6-fold increases in total capillary cross-sectional area and total capillary surface, per unit of COT tissue. Different patterns of expression of the mRNAs for angiogenic factors and their receptors were observed for CAR and COT. The dilation-like angiogenesis of CAR was correlated with the expression of vascular endothelial growth factor receptor-1 (FLT1), angiopoietin-2 (ANGPT2), and soluble guanylate cyclase (GUCY1B3) mRNAs. The branching-like angiogenesis of COT was correlated with the expression of vascular endothelial growth factor (VEGF), FLT1, angiopoietin-1 (ANGPT1), ANGPT2, and FGF2 mRNAs. Monitoring the expression of angiogenic factors and correlating the levels with quantitative measures of vascularity enable one to model angiogenesis in a spatiotemporal fashion.
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PMID:Placental growth throughout the last two thirds of pregnancy in sheep: vascular development and angiogenic factor expression. 1705 Aug 58

We previously reported that vascular endothelial growth factor (VEGF) increases vascular permeability through the synthesis of endothelial platelet-activating factor (PAF), while others reported the contribution of nitric oxide (NO). Herein, we addressed the contribution of VEGF receptors and the role played by PAF and NO in VEGF-induced plasma protein extravasation. Using a modified Miles assay, intradermal injection in mice ears of VEGF-A(165), VEGF-A(121), and VEGF-C (1 microM) which activate VEGFR-2 (Flk-1) receptor increased vascular permeability, whereas a treatment with VEGFR-1 (Flt-1) analogs; PlGF and VEGF-B (1 microM) had no such effect. Pretreatment of mice with PAF receptor antagonist (LAU8080) or endothelial nitric oxide synthase (eNOS) inhibitor (L-NAME) abrogated protein extravasation mediated by VEGF-A(165). As opposed to PAF (0.01-1 microM), treatment with acetylcholine (ACh; up to 100 microM; inducer of NO synthesis) or sodium nitroprusside (SNP; up to 1 microM; NO donor) did not induce protein leakage. Simultaneous pretreatment of mice with eNOS and protein kinase A (PKA) inhibitors restored VEGF-A(165) vascular hyperpermeability suggesting that endogenous NO synthesis leads to PKA inhibition, which support maintenance of vascular integrity. Our data demonstrate that VEGF analogs increase vascular permeability through VEGFR-2 activation, and that both endogenous PAF and NO synthesis contribute to VEGF-A(165)-mediated vascular permeability. However, PAF but not NO directly increases vascular permeability per se, thereby, suggesting that PAF is a direct inflammatory mediator, whereas NO serves as a cofactor in VEGF-A(165) proinflammatory activities.
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PMID:Vascular permeability induced by VEGF family members in vivo: role of endogenous PAF and NO synthesis. 1711 9


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