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Printable Handouts
Navigable Slide Index
- Introduction
- Cholesterol
- Main oxysterols in physiology and pathophysiology
- Origin of plasma and tissue oxysterols
- Inflammation and cholesterol oxidation
- Endogenous sources
- Hypercholesterolemia: a primary risk factor in age-related diseases
- The role of oxysterols in pathology
- Human carotid section: advanced atherosclerotic lesion
- Correlation between the amount of oxysterols and total cholesterol
- Oxysterols in human fibroatheroma
- Oxisterols upregulate pro-inflammatory molecules
- Oxisterols and the differantitation of monocytes
- 27OH and the inflammatory process
- Cholesterol,oxysterols and dementia
- Quantification of 27-OH and 24-OH in autoptic samples of frontal cortex from AD brains
- 27-OH and 24-OH up-regulate Aβ1-42 production
- Distribution of neurofibrillary changes in AD brain specimens
- 24-OH, SIRT-1 and Alzheimer’s disease
- Oxysterols produced in the diet
- Beneficial properties of cholesterol and its oxidative metabolism
- Oxysterols
- Physiological role of oxysterols
- Cholesterol
- Vitamin D is an oxysterol!
- Cholesterol metabolism and response to infections (1)
- Cholesterol metabolism and response to infections (2)
- Virus structure
- Naked viruses tested in our lab
- 25- and 27- oxysterols inhibit rhinovirus replication (1)
- 25- and 27- oxysterols inhibit rhinovirus replication (2)
- 25HC and 27HC inhibit rotavirus replication (1)
- 25HC and 27HC inhibit rotavirus replication (2)
- Confocal immuno-microscopy
- Main oxysterols in physiology and pathophysiology
- Putting cholesterol on trial
Topics Covered
- Enzymatic and non-enzymatic oxidation of cholesterol
- Increased amount of plasma oxysterols in hyper cholesterolemia
- Pathogenesis of atherosclerosis, Alzheimer’s disease, inflammatory bowel disease
- Physiological role of oxysterols of enzymatic origin in: membrane structure and function, synthesis of steroid hormones and bile acids
- Antiviral effects of side-chain oxysterols
Talk Citation
Poli, G. (2020, March 29). Cholesterol oxidation between health and disease [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/REHR2545.Export Citation (RIS)
Publication History
Financial Disclosures
- Giuseppe Poli has no commercial/financial relationships to disclose.
A selection of talks on Metabolism & Nutrition
Transcript
Please wait while the transcript is being prepared...
0:00
I'm Giuseppe Poli,
from the Department of Clinical and Biological Sciences at the University of Torino, Italy.
The title of my talk today is Cholesterol Oxidation: between health and disease.
0:17
Cholesterol is an important lipid in our body,
and is a dynamic molecule because it has a very complex and important metabolism.
0:31
The metabolism of cholesterol is mainly oxidative,
and the products are both of enzymatic and of non-enzymatic origin.
The main oxysterols involved both in physiology
and in pathophysiology are reported in this picture in this slide.
Of the enzymatic origin,
the most important enzymes are 27-, 25-, 24-hydroxycholesterol,
and also 7-alpha-hydroxycholesterol plays some role.
On the other hand,
very importantly, by the way,
are also the oxysterols originated through non-enzymatic pathways,
namely 7-beta-hydroxycholesterol,
the very toxic 7-ketocholesterol, and 5,6-epoxycholesterol.
1:33
It is interesting to underline the origin of the oxysterols present in plasma and tissues.
Oxysterols could derive from the diet.
They are already present in defined food,
particularly red meat and cheese,
and they are mainly produced through autoxidation of foodstuff-
the way of deterioration, or in any way autoxidation, of food.
The endogenous sources of oxysterols are also important,
both of non-enzymatic and of enzymatic origins, as I told you previously.
The non-enzymatic pathways involve mainly the reactive oxygen species.
These molecules oxidize cholesterol.
One of the most effective, let's say,
ubiquitous systems of non-enzymatic origin of oxysterols is represented by inflammation.
Inflammation, indeed, is always associated with a relatively high production of oxysterols.
As I outlined before,
what is important, especially in physiology,
are the pathways of enzymatic production of oxysterols.
But, for just a second,
let's focus on inflammation and the production of oxysterols.
It doesn't matter whether inflammation is coming first