BACKGROUND: The general increase in reactive oxygen species generated from glucose-derived advanced glycation endproducts (AGEs) is among the key mechanisms implicated in tissue injury due to diabetes. AGE-rich foods could exacerbate diabetic injury, at least by raising the endogenous AGE. MATERIALS AND METHODS: Herein, we tested whether, prior to ingestion, diet-derived AGEs contain species with cell activating (TNFalpha), chemical (cross-linking) or cell oxidative properties, similar to native AGEs. Glutathione (GSH) and GSH peroxidase (GPx) were assessed after exposure of human umbilical vein endothelial cell (HUVECs) to affinity-purified food-AGE extracts, each exposed to 250 degrees C, for 10 min, along with synthetic AGEs. RESULTS: Animal product-derived AGE, like synthetic methylglyoxal-bovine serum albumin (MG-BSA), AGE-BSA, and AGE-low density lipoprotein (AGE-LDL), induced a dose- and time-dependent depletion of GSH (()60-75%, p, 0.01) and an increase in GPx activity (()500-600%, p < 0.01), consistent with marked TNFalpha and cross-link formation (p < 0.05); this contrasted with the low bioreactivity of starch/vegetable AGE-extracts, which was similar to that of control BSA and CML- BSA and BSA (p:NS). Anti-AGE-R1,2,3 and -RAGE IgG each inhibited cell-associated (125) I-dAGE by approximately 30-55%; GSH/GPx were effectively blocked by N-acetyl-cysteine (NAC, 800 uM, p < 0.01) and aminoguanidine-HCl (AG, 100 uM, p < 0.01). CONCLUSION: Thus, food-derived AGE, prior to absorption, contain potent carbonyl species, that can induce oxidative stress and promote inflammatory signals.
BACKGROUND: The general increase in reactive oxygen species generated from glucose-derived advanced glycation endproducts (AGEs) is among the key mechanisms implicated in tissue injury due to diabetes. AGE-rich foods could exacerbate diabetic injury, at least by raising the endogenous AGE. MATERIALS AND METHODS: Herein, we tested whether, prior to ingestion, diet-derived AGEs contain species with cell activating (TNFalpha), chemical (cross-linking) or cell oxidative properties, similar to native AGEs. Glutathione (GSH) and GSH peroxidase (GPx) were assessed after exposure of human umbilical vein endothelial cell (HUVECs) to affinity-purified food-AGE extracts, each exposed to 250 degrees C, for 10 min, along with synthetic AGEs. RESULTS: Animal product-derived AGE, like synthetic methylglyoxal-bovine serum albumin (MG-BSA), AGE-BSA, and AGE-low density lipoprotein (AGE-LDL), induced a dose- and time-dependent depletion of GSH (()60-75%, p, 0.01) and an increase in GPx activity (()500-600%, p < 0.01), consistent with marked TNFalpha and cross-link formation (p < 0.05); this contrasted with the low bioreactivity of starch/vegetable AGE-extracts, which was similar to that of control BSA and CML- BSA and BSA (p:NS). Anti-AGE-R1,2,3 and -RAGE IgG each inhibited cell-associated (125) I-dAGE by approximately 30-55%; GSH/GPx were effectively blocked by N-acetyl-cysteine (NAC, 800 uM, p < 0.01) and aminoguanidine-HCl (AG, 100 uM, p < 0.01). CONCLUSION: Thus, food-derived AGE, prior to absorption, contain potent carbonyl species, that can induce oxidative stress and promote inflammatory signals.
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