AIMS/HYPOTHESIS: Hyperglycaemia-induced mitochondrial overproduction of reactive oxygen species (ROS) is central to the pathogenesis of endothelial damage in diabetes. R-(+)-alpha-lipoic acid has advantages over classic antioxidants, as it distributes to the mitochondria, is regenerated by glycolytic flux, and has a low redox potential. METHODS: To assess the effect of R-(+)-alpha-lipoic acid on experimental diabetic retinopathy, three groups of male Wistar rats were studied: non-diabetic controls, untreated diabetic controls, and diabetic rats treated with 60 mg/kg bodyweight R-(+)-alpha-lipoic acid i.p. for 30 weeks. Quantitative retinal morphometry included acellular occluded capillaries and pericyte numbers. The effects of R-(+)-alpha-lipoic acid on parameters of oxidative and nitrative stress, AGE and its receptor and nuclear factor kappa B (NFkappaB) were assessed by immunoblotting, and NFkappaB activation by electrophoretic mobility shift assay. Angiopoietin-2 and vascular endothelial growth factors were also determined by immunoblotting. RESULTS: After 30 weeks of diabetes, the number of acellular capillaries was significantly elevated in diabetic rats (57.1+/-10.6 acellular capillary segments [ac]/mm(2) of retinal area) compared with non-diabetic (19.8+/-5.1 ac/mm(2); p<0.001). Treatment with 60 mg/kg R-(+)-alpha-lipoic acid reduced the numbers by 88% (p<0.001 vs diabetic). Pericyte loss was also significantly inhibited in diabetic rats treated with R-(+)-alpha-lipoic acid (non-diabetic: 1,940+/-137 pericytes/mm(2)capillary area; untreated diabetic: 1,294+/-94 pericytes/mm(2)capillary area vs treated diabetic: 1,656+/-134 pericytes/mm(2); p<0.01). R-(+)-alpha-lipoic acid treatment reduced oxidative stress, normalised NFkappaB activation and angiopoietin-2 expression, and reduced vascular endothelial growth factor in the diabetic retina by 43% (p<0.0001). CONCLUSIONS/ INTERPRETATION: R-(+)-alpha-lipoic acid prevents microvascular damage through normalised pathways downstream of mitochondrial overproduction of ROS, and preserves pericyte coverage of retinal capillaries, which may provide additional endothelial protection.
AIMS/HYPOTHESIS: Hyperglycaemia-induced mitochondrial overproduction of reactive oxygen species (ROS) is central to the pathogenesis of endothelial damage in diabetes. R-(+)-alpha-lipoic acid has advantages over classic antioxidants, as it distributes to the mitochondria, is regenerated by glycolytic flux, and has a low redox potential. METHODS: To assess the effect of R-(+)-alpha-lipoic acid on experimental diabetic retinopathy, three groups of male Wistar rats were studied: non-diabetic controls, untreated diabetic controls, and diabeticrats treated with 60 mg/kg bodyweight R-(+)-alpha-lipoic acid i.p. for 30 weeks. Quantitative retinal morphometry included acellular occluded capillaries and pericyte numbers. The effects of R-(+)-alpha-lipoic acid on parameters of oxidative and nitrative stress, AGE and its receptor and nuclear factor kappa B (NFkappaB) were assessed by immunoblotting, and NFkappaB activation by electrophoretic mobility shift assay. Angiopoietin-2 and vascular endothelial growth factors were also determined by immunoblotting. RESULTS: After 30 weeks of diabetes, the number of acellular capillaries was significantly elevated in diabeticrats (57.1+/-10.6 acellular capillary segments [ac]/mm(2) of retinal area) compared with non-diabetic (19.8+/-5.1 ac/mm(2); p<0.001). Treatment with 60 mg/kg R-(+)-alpha-lipoic acid reduced the numbers by 88% (p<0.001 vs diabetic). Pericyte loss was also significantly inhibited in diabeticrats treated with R-(+)-alpha-lipoic acid (non-diabetic: 1,940+/-137 pericytes/mm(2)capillary area; untreated diabetic: 1,294+/-94 pericytes/mm(2)capillary area vs treated diabetic: 1,656+/-134 pericytes/mm(2); p<0.01). R-(+)-alpha-lipoic acid treatment reduced oxidative stress, normalised NFkappaB activation and angiopoietin-2 expression, and reduced vascular endothelial growth factor in the diabetic retina by 43% (p<0.0001). CONCLUSIONS/ INTERPRETATION:R-(+)-alpha-lipoic acid prevents microvascular damage through normalised pathways downstream of mitochondrial overproduction of ROS, and preserves pericyte coverage of retinal capillaries, which may provide additional endothelial protection.
Authors: A Bierhaus; S Schiekofer; M Schwaninger; M Andrassy; P M Humpert; J Chen; M Hong; T Luther; T Henle; I Klöting; M Morcos; M Hofmann; H Tritschler; B Weigle; M Kasper; M Smith; G Perry; A M Schmidt; D M Stern; H U Häring; E Schleicher; P P Nawroth Journal: Diabetes Date: 2001-12 Impact factor: 9.461
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Authors: L P Aiello; R L Avery; P G Arrigg; B A Keyt; H D Jampel; S T Shah; L R Pasquale; H Thieme; M A Iwamoto; J E Park Journal: N Engl J Med Date: 1994-12-01 Impact factor: 91.245
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Authors: Eugene J Barrett; Zhenqi Liu; Mogher Khamaisi; George L King; Ronald Klein; Barbara E K Klein; Timothy M Hughes; Suzanne Craft; Barry I Freedman; Donald W Bowden; Aaron I Vinik; Carolina M Casellini Journal: J Clin Endocrinol Metab Date: 2017-12-01 Impact factor: 5.958