1996
Site-specific modification of apolipoprotein B by advanced glycosylation end-products: implications for lipoprotein clearance and atherogenesis
Bucala R. Site-specific modification of apolipoprotein B by advanced glycosylation end-products: implications for lipoprotein clearance and atherogenesis. Nephrology Dialysis Transplantation 1996, 11: 17-19. PMID: 9044301, DOI: 10.1093/ndt/11.supp5.17.Peer-Reviewed Original ResearchConceptsLDL receptorAGE modificationApolipoprotein BAdvanced glycosylationHuman fibroblast LDL receptorsAGE-modified formAGE-specific antibodiesRegion of apoBNon-diabetic individualsFibroblast LDL receptorLDL receptor binding siteRenal insufficiencyDiabetes mellitusDiabetic patientsElevated LDLAGE-LDLLipoprotein clearanceReceptor binding sitesHuman LDL receptorGeneral populationPlasma clearance kineticsTransgenic miceLDLAGE formationClearance kinetics
1995
Advanced glycosylation end products in diabetic renal and vascular disease
Bucala R, Vlassara H. Advanced glycosylation end products in diabetic renal and vascular disease. American Journal Of Kidney Diseases 1995, 26: 875-888. PMID: 7503061, DOI: 10.1016/0272-6386(95)90051-9.Peer-Reviewed Original ResearchConceptsAdvanced glycosylation end productsGlycosylation end productsPhase II/III clinical trialsNormal renal functionInactivate nitric oxideSpecific therapeutic modalitiesRenal functionVascular complicationsDiabetic nephropathyGlomerular sclerosisGlucose-derived Amadori productsEtiologic roleVascular diseaseClinical trialsMatrix protein synthesisTherapeutic modalitiesVascular permeabilityAdvanced glycosylationLipoprotein depositionEnd productsTissue toxicityNitric oxidePharmacologic inhibitorsToxicityProtein synthesisAdvanced Glycosylation Endproducts in Diabetic Renal Disease: Clinical Measurement, Pathophysiological Significance, and Prospects for Pharmacological Inhibition
Bucala R, Vlassara H. Advanced Glycosylation Endproducts in Diabetic Renal Disease: Clinical Measurement, Pathophysiological Significance, and Prospects for Pharmacological Inhibition. Blood Purification 1995, 13: 160-170. PMID: 7619388, DOI: 10.1159/000170199.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCarbohydratesDiabetic NephropathiesEndothelium, VascularGlycosylationGuanidinesHumansLipoproteinsConceptsAdvanced glycosylation endproductsDiabetic renal diseaseNormal renal functionInactivate nitric oxideSpecific therapeutic modalitiesTissue LDL receptorsForms of LDLRenal functionRenal diseaseLDL levelsTherapeutic modalitiesVascular permeabilityPathophysiological significanceAdvanced glycosylationLipoprotein depositionPharmacological inhibitionLDL receptorClinical measurementsNitric oxideEndothelial cellsMarked increaseMiddle moleculesLDLToxic effectsEndproducts