Role of Oxidative Stress in the Genesis of Atherosclerosis and Diabetes Mellitus: A Personal Look Back on 50 Years of Research

Author(s): Vadim Z. Lankin , Alla K. Tikhaze .

Journal Name: Current Aging Science

Volume 10 , Issue 1 , 2017

Become EABM
Become Reviewer

Graphical Abstract:


Abstract:

We have provided an overview, based on the literature and our data. In accordance with the theory of D. Harman free radical processes cause damages that can accumulate and contribute to aging of the organism. Atherosclerosis and diabetes are developing for a long time so they are manifested predominantly in old age. We found an increase in the level of free radical peroxidation products and decrease in the activity of antioxidant enzymes in the tissues of animals with experimental atherosclerosis. Similar changes were found in the blood of patients with atherosclerosis and aortic autopsy material with atherosclerotic lesions. Thus, it was revealed that oxidative stress occured under atherosclerosis, and the arteriosclerosis to "Free Radical Pathologies" was attributed. Later it was discovered by different authors that oxidized Low Density Lipoproteins (LDL) and malonyldialdehyde- modified LDL accumulated during atherogenesis, causing damages of vascular wall. Under diabetic hyperglycemia glucose co-oxidized during free radical lipoperoxidation. This process promoted the transformation of oxidative stress to carbonyl stress with accumulation of biologically active dicarbonyls, including glyoxal and methylglyoxal. We show that the glyoxal-modified LDL were captured by cultured macrophages with a higher efficiency than the MDA-modified LDL. This could facilitate the more rapid development of lipoidosis in the vessel wall (due to the formation of foam cells) and manifestation of atherosclerosis under diabetes. We found that in patients with diabetes there was a sharp decrease in the activity of antioxidant enzymes as a result of the modification of the active center under development of carbonyl stress. We expressed a hypothesis about a common molecular mechanism of vascular wall damages under atherosclerosis and diabetes.

Keywords: Atherosclerosis, carbonyl stress, diabetes, free radical peroxidation, oxidized LDL, oxidative stress, reactive oxygen species.

Rights & PermissionsPrintExport Cite as

Article Details

VOLUME: 10
ISSUE: 1
Year: 2017
Page: [18 - 25]
Pages: 8
DOI: 10.2174/1874609809666160926142640
Price: $58

Article Metrics

PDF: 25
HTML: 4