1. Free radicals are unstable molecules that react quickly to gain stability by capturing electrons from other compounds, causing damage. Common types include superoxide and hydroxyl radicals.
2. Free radicals are generated as a normal product of oxygen metabolism in cells and can also come from environmental exposures like pollution, smoking, and radiation. They cause oxidative damage to biomolecules like lipids, proteins, DNA and carbohydrates.
3. This damage is implicated in diseases such as cancer, heart disease, and neurological disorders. Antioxidants help counter the damaging effects of free radicals by reacting with and neutralizing them.
2. WHAT ARE FREE RADICAL?
Free radicals are very unstable and react
quickly with other compounds, trying to
capture the needed electron to gain stability.
4. PROPERTIES OF FREE RADICAL
1. Highly reactive
2. Very short half-life
3. Generate new radicals by chain reaction
4. Cause damage to biomolecules, cells and tissues
Most free radicals in biological systems are derivatives
of oxygen (Reactive Oxygen Species, ROS), but there are
also derivatives of nitrogen (Reactive Nitrogen Species,
RNS), Reactive Metabolites or Intermediates.
5. REACTIVE OXYGEN SPECIES (ROS)
Superoxide (O2
.-)
Hydrogen Peroxide (H2O2)
Hydroxyl Radical (OH.)
Singlet oxygen, 1O2
Reactive Oxygen Species is used in a broad
sense to collectively free radicals (O2
.-, OH.)
and non-free radicals (H2O2, 1O2, which are
extremely reactive) of the biological system.
6. GENERATION OF FREE RADICAL
1. Cellular metabolism:-
About 1- 4% of oxygen taken up in the body is
converted to free radicals. They are constantly
produced during the normal oxidation of foodstuffs.
a) Due to leaks in the electron transport chain in
mitochondria.
b) Some enzymes such as xanthine oxidase and
aldehyde oxidase form superoxide anion radical or
hydrogen peroxide.
c) Macrophage also produces NO from arginine by the
enzyme nitric oxide synthase. This is also an
important anti-bacterial mechanism.
7. SOURCES OF OXYGEN FREE RADICAL
In mitochondria:
- generation of energy - ATP
- glucose, fatty acids, amino acids
- O2 2H2O
4e-+4H+
- leakage of O2
-. (superoxide)
H2O2 (hydrogen peroxide)
8. 2. Environmental effects:-
A. Due to drug metabolism
B. Due to damages caused by UV or X-rays
C. Cigarette or alcohol
Excessive
smoking
Alcohol
10. HARMFUL EFFECTS OF FREE RADICAL
A. Free Radical and biomolecules
1. Proteins:-
Cause oxidation of sulfhydryl groups, and
modification of AA. ROS may damage protein by
fragmentation, aggregation results in the loss of
biological activity of proteins.
2. Lipids:-
The polyunsaturated lipid molecules of cell
membranes are particularly susceptible to
damaging free radicals process and contribute to
the uncontrolled chain reaction (lipid peroxidation).
11. 3. Carbohydrates:-
Glycation increases the susceptibility of
proteins to the attack by free radicals.
4. Nucleic acid:-
Cause DNA strand breaks, fragmentation of
bases and deoxyribose results in cytotoxicity
and mutations.
12. B. Diseases
1. Cardiovascular diseases (CHD):- ox-LDL, formed by the
action of free radicals, promote CHD and atherosclerosis
(AS).
2. Cancers:- damage DNA and cause mutation and
cytotoxicity, play a key role in carcinogenesis.
3. Inflammatory diseases:- damage on the extracellular
components such as collagen and hyaluronic acid,
promote glomerulonephritis and ulcerative colitis.
4. Respiratory diseases:- destroy endothelium and cause
lung edema. Cigarette smoke contains free radicals and
promotes the production of more free radicals.
13. 5. Diabetes mellitus:- Destruction of islets results
in pathogenesis.
6. Male infertility:- reduce sperm motility and
viability.
7. Aging process
8. Others:- such as Parkinson's disease,
Alzheimer’s disease, multiple sclerosis, liver
cirrhosis, muscular dystrophy.
14. ANTIOXIDANTS
The substance present in low concentrations
relative to the oxidizable substrate that
significantly delays or reduces oxidation of the
substrate.
They reduce the effect of dangerous oxidants
by binding together with these harmful
molecules, decreasing their destructive power.
They can also help repair damage already
sustained by cells.
They may be considered as the scavengers of
free radicals.
15. During this reaction the antioxidant sacrifices itself by
becoming oxidized.
However, antioxidant supply is not unlimited as one
antioxidant molecule can only react with a single free radical.
Therefore, there is a constant need to replenish antioxidant
resources.