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Bioimpacts. 2016;6(1): 33-39.
doi: 10.15171/bi.2016.05
PMID: 27340622
PMCID: PMC4916550
Scopus ID: 84977156856
  Abstract View: 3233
  PDF Download: 1273
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Original Research

Protective mechanisms of Cucumis sativus in diabetes-related models of oxidative stress and carbonyl stress

Himan Heidari 1,2, Mohammad Kamalinejad 3, Maryam Noubarani 2, Mokhtar Rahmati 2, Iman Jafarian 2, Hasan Adiban 2, Mohammad Reza Eskandari 1,2*

1 Zanjan Metabolic Diseases Research Center, Zajan University of Medical Sciences, Zanjan, Iran
2 Department of Pharmacology and Toxicology, School of Pharmacy, Zanjan University of Medical Sciences, Zanjan, Iran
3 Faculty of Pharmacy, Shahid Beheshti University of Medical Sciences, Tehran, Iran
*Corresponding Author: Email: eskandarimr@zums.ac.ir

Abstract

Introduction: Oxidative stress and carbonyl stress have essential mediatory roles in the development of diabetes and its related complications through increasing free radicals production and impairing antioxidant defense systems. Different chemical and natural compounds have been suggested for decreasing such disorders associated with diabetes. The objectives of the present study were to investigate the protective effects of Cucumis sativus (C. sativus) fruit (cucumber) in oxidative and carbonyl stress models. These diabetes-related models with overproduction of reactive oxygen species (ROS) and reactive carbonyl species (RCS) simulate conditions observed in chronic hyperglycemia.
Methods: Cytotoxicity induced by cumene hydroperoxide (oxidative stress model) or glyoxal (carbonyl stress model) were measured and the protective effects of C. sativus were evaluated using freshly isolated rat hepatocytes.
Results: Aqueous extract of C. sativus fruit (40 μg/mL) prevented all cytotoxicity markers in both the oxidative and carbonyl stress models including cell lysis, ROS formation, membrane lipid peroxidation, depletion of glutathione, mitochondrial membrane potential decline, lysosomal labialization, and proteolysis. The extract also protected hepatocytes from protein carbonylation induced by glyoxal. Our results indicated that C. sativus is able to prevent oxidative stress and carbonyl stress in the isolated hepatocytes.
Conclusion: It can be concluded that C. sativus has protective effects in diabetes complications and can be considered a safe and suitable candidate for decreasing the oxidative stress and carbonyl stress that is typically observed in diabetes mellitus.
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Submitted: 28 Jul 2015
Revision: 12 Jan 2016
Accepted: 12 Mar 2016
ePublished: 28 Mar 2016
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