Everything about Pro-oxidant totally explained
Pro-oxidants are chemicals that induce
oxidative stress, either through creating
reactive oxygen species or inhibiting
antioxidant systems. The oxidative stress produced by these chemicals can damage cells and tissues, for example an overdose of the
analgesic paracetamol (acetaminophen) can cause fatal damage to the
liver, partly through its production of reactive oxygen species.
Some substances can act as either antioxidants, or pro-oxidants, depending on the specific set of conditions. Some of the conditions that are important include the concentration of the chemical and if
oxygen or
transition metals are present. While thermodynamically very favored, reduction of molecular oxygen or peroxide to
superoxide or
hydroxyl radical is fortunately
spin forbidden. This greatly reduces the rates of these reactions, thus allowing aerobic life to exist. As a result, the reduction of oxygen typically involves either the initial formation of
singlet oxygen, or
spin-orbit coupling through a reduction of a transition-series metal such as manganese, iron, or copper. This reduced metal then transfers the single electron to molecular oxygen or peroxide.
Metals
Transition metals can act as pro-oxidants. E.g., chronic
manganism is a classic "pro-oxidant" disease
(External Link
). Another disease associated with the chronic presence of a pro-oxidant transition-series metal is
hemochromatosis, associated with elevated iron levels. Similarly,
Wilson's disease is associated with elevated tissue levels of copper. Such syndromes tend to be associated with a common symptomology. This typically-includes various combinations of
psychosis,
dyskinesia (including Parkinsonian-like symptomology), pigmentary abnormalities,
fibrosis,
deafness,
diabetes, and
arthritis.
(External Link). Thus, all are occasional symptoms of (e.g) hemochromatosis, another name for which is "bronze diabetes". The pro-oxidant herbicide
paraquat, Wilson's disease, and striatal iron have similarly been linked to human
Parkinsonism. Paraquat also produces parkinsonian-like symptoms in rodents.
Fibrosis
Fibrosis or scar formation is another pro-oxidant-related symptom. E.g., interocular copper or
vitreous chalcosis is associated with severe vitreous
fibrosis, as is interocular iron. Liver
cirrhosis is also a major symptom of Wilson's disease. The
pulmonary fibrosis produced by
paraquat and the antitumor agent
bleomycin is also thought to be induced by the pro-oxidant properties of these agents. It may be that oxidative stress produced by such agents mimics a normal
physiological signal for
fibroblast conversion to
myofibroblasts.
Pro-oxidant vitamins
Vitamins that are reducing agents can be pro-oxidants.
Vitamin C has antioxidant activity when it
reduces oxidizing substances such as
hydrogen peroxide, however, it can also reduce metal ions which leads to the generation of
free radicals through the
fenton reaction.
» :2 Fe
2+ + 2 H
2O
2 → 2 Fe
3+ + 2 OH
· + 2 OH
−
2 Fe
3+ + Ascorbate → 2 Fe
2+ + Dehydroascorbate
The metal ion in this reaction can be reduced, oxidized, and then re-reduced, in a process called
redox cycling that can generate reactive oxygen species.
The relative importance of the antioxidant and pro-oxidant activities of antioxidant vitamins are an area of current research, but vitamin C, for example, appears to have a mostly antioxidant action in the body.
zinc, and
vitamin E.
Uric acid
The pro-oxidant properties of reductants can also have clinical consequences. For example, in humans,
uric acid accounts for roughly half the antioxidant ability of plasma. In fact, uric acid may have substituted for ascorbate in human evolution
(External Link).
However, like ascorbate, uric acid can also mediate the production of active oxygen species and thus act as a prooxidant. This was first proposed to play a role in the etiology of the
Lesch-Nyhan Syndrome (associated with choreoathetoid dyskinesia) and in hyperuricemic syndrome in
dalmatian dogs. The latter responds to treatment with the antioxidant drug
orgotein, a pharmaceutical form of
superoxide dismutase. Such animals are also typically "bronzed".
High uric acid levels are also encountered in
atherosclerosis,
metabolic syndrome, and in
stroke. The issue is whether hyperuricemia is a protective response to oxidative stress in such diseases or whether it's a primary cause
(External Link). Thus, some researchers think urate-induced oxidative stress is causative in stroke
(External Link), while others suggest the exact opposite, that urate is neuroprotective by means of its antioxidant properties
(External Link). Similarly, evidence relates metabolic syndrome to the pro-oxidant properties of urate secondary to fructose-induced hyperuricemia
(External Link).
Homocystinuria
In humans, elevated
homocysteine levels are associated with an increased incidence of atherosclerosis and may play a role in
Alzheimers. Homocysteine is a powerful reducing agent and like most such agents can induce oxidative stress through reducing molecular oxygen to its radical forms. The
spin-forbidden nature of this reaction normally requires this be mediated through reduction of some heavy atom, which then transfers the electron to oxygen. Repeated working of this process is known as
redox cycling. This has been proposed to play a role in the etiology of such diseases.
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Anticancer Drugs
Several important anticancer agents both bind to DNA and generate reactive oxygen species. These include
adriamycin and other
anthracyclines,
bleomycin, and
cisplatin. These agents may show specific toxicity towards cancer cells because of the low level of antioxidant defenses found in tumors.
Further Information
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