| scholarly article | Q13442814 |
| review article | Q7318358 |
| P356 | DOI | 10.1089/ARS.2005.7.1581 |
| P698 | PubMed publication ID | 16356121 |
| P2093 | author name string | Renu A Kowluru | |
| P2860 | cites work | Oxidative stress inactivates VEGF survival signaling in retinal endothelial cells via PI 3-kinase tyrosine nitration | Q42472180 |
| P433 | issue | 11-12 | |
| P921 | main subject | diabetic retinopathy | Q631361 |
| cell death | Q2383867 | ||
| P304 | page(s) | 1581-1587 | |
| P577 | publication date | 2005-11-01 | |
| P1433 | published in | Antioxidants & Redox Signaling | Q4775078 |
| P1476 | title | Diabetic retinopathy: mitochondrial dysfunction and retinal capillary cell death | |
| P478 | volume | 7 |
| Q92599989 | A review of the putative causal mechanisms associated with lower macular pigment in diabetes mellitus |
| Q38909591 | AGEs Promote Oxidative Stress and Induce Apoptosis in Retinal Pigmented Epithelium Cells RAGE-dependently |
| Q35404674 | Abrogation of MMP-9 gene protects against the development of retinopathy in diabetic mice by preventing mitochondrial damage. |
| Q88613149 | Acute Effect of Low-Dose Space Radiation on Mouse Retina and Retinal Endothelial Cells |
| Q39129556 | Aldose reductase inhibition alleviates hyperglycemic effects on human retinal pigment epithelial cells |
| Q36736338 | Alpha-lipoic acid: physiologic mechanisms and indications for the treatment of metabolic syndrome |
| Q33679152 | Apoptosis in Diabetic Fibrovascular Membranes After Panretinal Photocoagulation |
| Q64054648 | Application of a Flow-Based Hollow-Fiber Co-Culture System to Study Cellular Influences under Hyperglycemic Conditions |
| Q38941639 | Application of multiplex immunoassay technology to investigations of ocular disease |
| Q47095933 | Astragaloside IV protects rat retinal capillary endothelial cells against high glucose-induced oxidative injury |
| Q64276093 | Astragalus polysaccharides suppresses high glucose-induced metabolic memory in retinal pigment epithelial cells through inhibiting mitochondrial dysfunction-induced apoptosis by regulating miR-195 |
| Q33748559 | BASP1 promotes apoptosis in diabetic nephropathy. |
| Q35591570 | Beyond AREDS: is there a place for antioxidant therapy in the prevention/treatment of eye disease? |
| Q44442577 | Blood-Brain Barrier Disruption and Neurovascular Unit Dysfunction in Diabetic Mice: Protection with the Mitochondrial Carbonic Anhydrase Inhibitor Topiramate |
| Q39365499 | Connexin channel and its role in diabetic retinopathy |
| Q55124014 | Correlation of biomarkers thiobarbituric acid reactive substance, nitric oxide and central subfield and cube average thickness in diabetic retinopathy: a cross-sectional study. |
| Q35687928 | Diabetic retinopathy and damage to mitochondrial structure and transport machinery |
| Q46337031 | Diabetic retinopathy, metabolic memory and epigenetic modifications |
| Q35545811 | Diabetic retinopathy, superoxide damage and antioxidants. |
| Q37733102 | Dietary hyperglycemia, glycemic index and metabolic retinal diseases |
| Q33729972 | Differential expression and role of hyperglycemia induced oxidative stress in epigenetic regulation of β1, β2 and β3-adrenergic receptors in retinal endothelial cells |
| Q37479451 | Dopamine deficiency contributes to early visual dysfunction in a rodent model of type 1 diabetes |
| Q36101886 | Downregulating p22phox ameliorates inflammatory response in Angiotensin II-induced oxidative stress by regulating MAPK and NF-κB pathways in ARPE-19 cells |
| Q36292177 | Downregulation of mitochondrial connexin 43 by high glucose triggers mitochondrial shape change and cytochrome C release in retinal endothelial cells |
| Q27690757 | ER stress and apoptosis: a new mechanism for retinal cell death |
| Q42183977 | Effects of antioxidant gene therapy on the development of diabetic retinopathy and the metabolic memory phenomenon |
| Q26775552 | Epidemiology of diabetic retinopathy, diabetic macular edema and related vision loss |
| Q90221699 | Epigenetic Modifications Compromise Mitochondrial DNA Quality Control in the Development of Diabetic Retinopathy |
| Q92221968 | Epigenetic Modifications in Peripheral Blood as Potential Noninvasive Biomarker of Diabetic Retinopathy |
| Q92093237 | Epigenetics and Mitochondrial Stability in the Metabolic Memory Phenomenon Associated with Continued Progression of Diabetic Retinopathy |
| Q42854405 | Evaluation of the impact of diabetes on retinal metabolites by NMR spectroscopy. |
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| Q90568146 | Ginsenoside Rb1 Attenuates High Glucose-Induced Oxidative Injury via the NAD-PARP-SIRT Axis in Rat Retinal Capillary Endothelial Cells |
| Q41990280 | Glycosylation End-product Formation in Retinal Membranes, an Energy Alteration Injury |
| Q28578531 | HSP27/HSPB1 as an adaptive podocyte antiapoptotic protein activated by high glucose and angiotensin II |
| Q31083347 | Heme oxygenase-1 protects retinal endothelial cells against high glucose- and oxidative/nitrosative stress-induced toxicity |
| Q33769436 | High Glucose Induces Mitochondrial Dysfunction in Retinal Müller Cells: Implications for Diabetic Retinopathy |
| Q36301307 | High Glucose-induced Retinal Pericyte Apoptosis Depends on Association of GAPDH and Siah1. |
| Q33947328 | High glucose disrupts mitochondrial morphology in retinal endothelial cells: implications for diabetic retinopathy |
| Q35591494 | High glucose induces mitochondrial morphology and metabolic changes in retinal pericytes |
| Q46768236 | High sugar-induced repression of antioxidant and anti-apoptotic genes in lens: reversal by pyruvate |
| Q35891564 | High-mobility group box 1 protein is implicated in advanced glycation end products-induced vascular endothelial growth factor A production in the rat retinal ganglion cell line RGC-5. |
| Q52753708 | Homonoia riparia and its major component, myricitrin, inhibit high glucose-induced apoptosis of human retinal pericytes. |
| Q39569586 | Hyperglycemia induces apoptosis via CB1 activation through the decrease of FAAH 1 in retinal pigment epithelial cells |
| Q41653304 | Hyperlipidemia and the development of diabetic retinopathy: Comparison between type 1 and type 2 animal models |
| Q36355485 | Hypoxia-induced oxidative stress in ischemic retinopathy |
| Q38944575 | Hypoxia-regulated retinal glial cell-specific promoter for potential gene therapy in disease |
| Q33306583 | Imaging mitochondria in living corneal endothelial cells using autofluorescence microscopy |
| Q37159434 | Increased oxidative stress in diabetes regulates activation of a small molecular weight G-protein, H-Ras, in the retina |
| Q34538639 | Influence of retinopathy on the achromatic and chromatic vision of patients with type 2 diabetes |
| Q35928454 | Interleukin-1β and mitochondria damage, and the development of diabetic retinopathy |
| Q90334233 | Interplay between BMPs and Reactive Oxygen Species in Cell Signaling and Pathology |
| Q37396370 | Interrelationship between activation of matrix metalloproteinases and mitochondrial dysfunction in the development of diabetic retinopathy |
| Q38116121 | Lipoic acid in animal models and clinical use in diabetic retinopathy |
| Q34077433 | Matrix metalloproteinase-2 in the development of diabetic retinopathy and mitochondrial dysfunction |
| Q43442147 | Mechanisms of modified LDL-induced pericyte loss and retinal injury in diabetic retinopathy |
| Q32186021 | Mesenchymal stem cells attenuate hydrogen peroxide-induced oxidative stress and enhance neuroprotective effects in retinal ganglion cells |
| Q34492507 | Metabolic memory in diabetes - from in vitro oddity to in vivo problem: role of apoptosis |
| Q55474609 | MicroRNA-27a protects retinal pigment epithelial cells under high glucose conditions by targeting TLR4. |
| Q26822476 | Microvascular complications and diabetic retinopathy: recent advances and future implications |
| Q35457777 | Mitochondrial biogenesis and the development of diabetic retinopathy |
| Q33668501 | Mitochondrial dysfunction in diabetes: from molecular mechanisms to functional significance and therapeutic opportunities |
| Q34221905 | Mitochondrial dysfunction in retinal diseases |
| Q28383025 | Mitochondrial function in vascular endothelial cell in diabetes |
| Q33867982 | Modulation of diabetic retinopathy pathophysiology by natural medicines through PPAR-γ-related pharmacology. |
| Q51734430 | Mutational Analysis of the Mitochondrial DNA Displacement-Loop Region in Human Retinoblastoma with Patient Outcome. |
| Q61800528 | Neuroprotective effects of PPARα in retinopathy of type 1 diabetes |
| Q46248925 | Notoginsenoside R1 attenuates high glucose-induced endothelial damage in rat retinal capillary endothelial cells by modulating the intracellular redox state |
| Q89685080 | Novel Detection and Restorative Levodopa Treatment for Pre-Clinical Diabetic Retinopathy |
| Q35027703 | Novel role of mitochondrial matrix metalloproteinase-2 in the development of diabetic retinopathy |
| Q35049903 | Ocular complications of diabetes mellitus |
| Q39390584 | Osmotic expression of aldose reductase in retinal pigment epithelial cells: involvement of NFAT5. |
| Q34512906 | Oxidative damage of mitochondrial DNA in diabetes and its protection by manganese superoxide dismutase |
| Q35819297 | Oxidative stress and diabetic retinopathy |
| Q37226580 | Oxidative stress and diabetic retinopathy: pathophysiological mechanisms and treatment perspectives |
| Q38480783 | Oxidative stress and epigenetic modifications in the pathogenesis of diabetic retinopathy. |
| Q34314724 | Peroxynitrite-driven mechanisms in diabetes and insulin resistance - the latest advances |
| Q64058295 | Perturbed Biochemical Pathways and Associated Oxidative Stress Lead to Vascular Dysfunctions in Diabetic Retinopathy |
| Q38888617 | Protective Effects of Panax notoginseng Saponins against High Glucose-Induced Oxidative Injury in Rat Retinal Capillary Endothelial Cells. |
| Q36521057 | Protective effects of lipoic acid on chrysene-induced toxicity on Müller cells in vitro. |
| Q36557787 | Proteomic modification by nitric oxide |
| Q42514020 | R-(+)-alpha-lipoic acid inhibits endothelial cell apoptosis and proliferation: involvement of Akt and retinoblastoma protein/E2F-1. |
| Q35619430 | Rapid, noninvasive detection of diabetes-induced retinal metabolic stress |
| Q59279106 | Reactive oxygen species-selective regulation of aortic inflammatory gene expression in Type 2 diabetes |
| Q37081874 | Redox compartmentalization in eukaryotic cells |
| Q35903992 | Reversal of the Caspase-Dependent Apoptotic Cytotoxicity Pathway by Taurine from Lycium barbarum (Goji Berry) in Human Retinal Pigment Epithelial Cells: Potential Benefit in Diabetic Retinopathy |
| Q34009114 | Role of histone acetylation in the development of diabetic retinopathy and the metabolic memory phenomenon |
| Q36468930 | Role of matrix metalloproteinase-2 and -9 in the development of diabetic retinopathy |
| Q40958087 | Silencing of insulin receptor substrate-1 increases cell death in retinal Müller cells. |
| Q42915712 | Simvastatin suppresses expression of angiogenic factors in the retinas of rats with streptozotocin-induced diabetes |
| Q46929681 | TIAM1-RAC1 signalling axis-mediated activation of NADPH oxidase-2 initiates mitochondrial damage in the development of diabetic retinopathy. |
| Q91795713 | Targeting Altered Mitochondrial Biogenesis in the Brain of Diabetic Rats: Potential Effect of Pioglitazone and Exendin-4 |
| Q52643215 | Targeting human 8-oxoguanine DNA glycosylase to mitochondria protects cells from high glucose-induced apoptosis. |
| Q58762667 | The Oxidative Stress and Mitochondrial Dysfunction during the Pathogenesis of Diabetic Retinopathy |
| Q91656284 | The Regulatory Role of Rac1, a Small Molecular Weight GTPase, in the Development of Diabetic Retinopathy |
| Q49463670 | The Role of Mitochondrial DNA (mtDNA) in the Development of Diabetic Retinopathy (DR): A Systematic Review |
| Q37786972 | The importance of mitochondria in age-related and inherited eye disorders. |
| Q31146840 | Therapeutic implications of curcumin in the prevention of diabetic retinopathy via modulation of anti-oxidant activity and genetic pathways |
| Q35618941 | Tiam1-Rac1 Axis Promotes Activation of p38 MAP Kinase in the Development of Diabetic Retinopathy: Evidence for a Requisite Role for Protein Palmitoylation |
| Q88170813 | Time-lapse microscopy of oxidative stress demonstrates metabolic sensitivity of retinal pericytes under high glucose condition |
| Q27028225 | Vitreous mediators in retinal hypoxic diseases |
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