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RESEARCH PRODUCT
Diabetes, oxidative stress and therapeutic strategies.
Marianne ZellerYves CottinLuc RochetteCatherine Vergelysubject
medicine.medical_specialtyAntioxidantEndogenous Factorsmedicine.medical_treatmentBiophysicsInflammationEndogeny030204 cardiovascular system & hematologyBiologyPharmacologymedicine.disease_causeBiochemistryAntioxidants03 medical and health scienceschemistry.chemical_compound0302 clinical medicine[SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular systemInternal medicineDiabetes mellitusmedicineDiabetes MellitusHumansMolecular BiologyReactive nitrogen speciesComputingMilieux_MISCELLANEOUS030304 developmental biologychemistry.chemical_classification0303 health sciencesReactive oxygen speciesmedicine.disease3. Good health[SDV.MHEP.CSC] Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular systemOxidative StressEndocrinologychemistrymedicine.symptomOxidoreductasesReactive Oxygen SpeciesOxidative stressdescription
Abstract Background Diabetes has emerged as a major threat to health worldwide. Scope of Review The exact mechanisms underlying the disease are unknown; however, there is growing evidence that excess generation of reactive oxygen species (ROS), largely due to hyperglycemia, causes oxidative stress in a variety of tissues. Oxidative stress results from either an increase in free radical production, or a decrease in endogenous antioxidant defenses, or both. ROS and reactive nitrogen species (RNS) are products of cellular metabolism and are well recognized for their dual role as both deleterious and beneficial species. In type 2 diabetic patients, oxidative stress is closely associated with chronic inflammation. Multiple signaling pathways contribute to the adverse effects of glucotoxicity on cellular functions. There are many endogenous factors (antioxidants, vitamins, antioxidant enzymes, metal ion chelators) that can serve as endogenous modulators of the production and action of ROS. Clinical trials that investigated the effect of antioxidant vitamins on the progression of diabetic complications gave negative or inconclusive results. This lack of efficacy might also result from the fact that they were administered at a time when irreversible alterations in the redox status are already under way. Another strategy to modulate oxidative stress is to exploit the pleiotropic properties of drugs directed primarily at other targets and thus acting as indirect antioxidants. Major Conclusions It appears important to develop new compounds that target key vascular ROS producing enzymes and mimic endogenous antioxidants. General significance This strategy might prove clinically relevant in preventing the development and/or retarding the progression of diabetes associated with vascular diseases.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-09-01 | Biochimica et biophysica acta |