Oxidative stress and disease: atherosclerosis

Poli, Giuseppe

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Introduction
Intensity of oxidative stress in pathophysiology
Oxidative stress, chronic inflammation & fibrosis
Oxidative stress
Inflammatory cytokines with pro-fibrogenic effect
ROS-secondary products diffuse much better
Oxidation of LDL
Lipid oxidation in athlerosclerotic lesions
Molecules that provoke endothelial dysfunction
Fibrotic plaque formation
Inflammation-dependent vascular remodeling
Athlerosclerotic plaque evolution
MMP-9 accumulation in carotid plaques
Lipid oxidation
Oxidative modification of LDL lipid moiety
Aldehydes produced from LDL oxidation
Aldehyde modulation of cellular responses
HNE adducts in a human carotid fibrotic plaque
Reactions of 4-hydroxy-2-alkenals
TGFβ-1 synthesis after HNE exposure
HNE increases MCP-1 levels
4-hydroxynonenal and atherosclerosis
LDL oxidation products
Oxysterols of pathophysiological relevance
Origin of plasma and tissue oxysterols (1)
Origin of plasma and tissue oxysterols (2)
Oxysterols
Oxysterols in human fibroatheroma (1)
Oxysterols in human fibroatheroma (2)
The pro-atherogenic role of oxysterols
Genes upregulated by oxysterol in U937 cells
Proinflammatory effects of oxysterols (1)
Proinflammatory effects of oxysterols (2)
Proinflammatory effects of oxysterols (3)
27-OH markedly upregulates MMP-9 expression
Inflammatory cytokines induce MMP-9
Oxysterols and atheroma formation - summary
Oxysterols and atherosclerosis
Conclusions (1)
Conclusions (2)
Conclusions (3)

Topics Covered

Oxidative stress, inflammation and fibrosis
Redox-dependent expression of pro-fibrogenic cytokines
Formation and evolution of fibrotic plaque: the primary role of inflammation
LDL lipid oxidation products
Lipid oxidation during the genesis of atherosclerotic lesion
Enzymatic and non-enzymatic lipid oxidation products
Pro-inflammatory and pro-fibrogenic effects of 4-hydroxy-2-alkenals
Oxysterols of pathophysiological interest
Oxysterols and atheroma formation
Pro-inflammatory effects of cholesterol oxidation products

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Free Radicals and the Oxygen Paradox

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Immunology & Inflammation

Talk Citation

Poli, G. (2019, September 26). Oxidative stress and disease: atherosclerosis [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved November 21, 2024, from https://doi.org/10.69645/COYA6310.
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Publication History

Published on September 26, 2019

Financial Disclosures

Giuseppe Poli has no commercial/financial relationships to disclose.

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Oxidative stress and disease: atherosclerosis

Prof. Giuseppe Poli – University of Torino, Italy

Published on September 26, 2019 54 min

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Transcript

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0:00

The title of this presentation is Oxidative stress and Disease: Atherosclerosis. My name is Giuseppe Poli from the Department of Clinical and Biological Sciences, University of Turin, Italy. I would like to present and discuss the recent available evidence on the possible role of oxidative stress in the pathogenesis of atherosclerosis.

0:30

Cellular oxidative stress is a biochemical phenomenon occurring under different conditions, and characterized by different intensities. Depending on the intensity of the biochemical phenomenon, we can have either modulation of cell functions or other physiological conditions, like fibrosis and inflammation. In case of a high intensity of oxidative stress, the cell develops irreversible damage.

1:09

In association with oxidative stress, chronic inflammation and fibrosis often occurs, in several chronic human diseases involving the lung, the liver, the brain or the kidney. Today we are interested in atherosclerosis, a term which is actually composed of two words: 'atheroma' and 'sclerosis'. Atheroma means fibrotic plaque, sclerosis is a similar term to fibrosis, and they mean the fibrotic degeneration of the arterial wall.

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Oxidative stress and disease: atherosclerosis

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Oxidative stress and disease: atherosclerosis