This breakthrough can help develop drugs that prevent ageing, cardiac
disorders, and several neurological problems like Parkinson's and
Alzheimer's disease. Vanadium oxide or vanadia is a form of vanadium, an
element found close to titanium on the periodic table.
Reactive Oxygen Species (ROS) are produced during normal cellular metabolism. When the level of ROS is elevated, normal redox state of cells is disturbed, leading to damage of cellular components, including proteins, lipids, and DNA.
Oxidative stress caused by ROS is responsible for various conditions ranging from a simple premature greying of hair to serious diseases like cancer, diabetes, arthritis, ageing and kidney disorders.
"Many of the antioxidant-based drugs used to control ROS, also produce ROS, though at small proportions. So we wanted to concentrate on a mechanism that mimics the natural detoxification pathways," say Prof G Mugesh and Patrick D'Silva, who led the research team.
In a paper published in Nature Communications, they have shown that vanadia nanowires actually mimic a natural antioxidant enzyme, according to a Gubbi Labs release.
ROS are helpful when their concentrations are optimal. They help in numerous biochemical reactions and act as critical secondary messengers in signalling pathways. They are also essential for the normal metabolism of the human body.
"The human body has numerous mechanisms to scavenge ROS, and specifically hydrogen peroxide. However, when people are suffering from a disease, the production of ROS shoots up, and the natural scavenging mechanisms are not able to cope with. In such cases, we may have to control ROS levels artificially," says D'Silva.
Reactive Oxygen Species (ROS) are produced during normal cellular metabolism. When the level of ROS is elevated, normal redox state of cells is disturbed, leading to damage of cellular components, including proteins, lipids, and DNA.
Oxidative stress caused by ROS is responsible for various conditions ranging from a simple premature greying of hair to serious diseases like cancer, diabetes, arthritis, ageing and kidney disorders.
"Many of the antioxidant-based drugs used to control ROS, also produce ROS, though at small proportions. So we wanted to concentrate on a mechanism that mimics the natural detoxification pathways," say Prof G Mugesh and Patrick D'Silva, who led the research team.
In a paper published in Nature Communications, they have shown that vanadia nanowires actually mimic a natural antioxidant enzyme, according to a Gubbi Labs release.
ROS are helpful when their concentrations are optimal. They help in numerous biochemical reactions and act as critical secondary messengers in signalling pathways. They are also essential for the normal metabolism of the human body.
"The human body has numerous mechanisms to scavenge ROS, and specifically hydrogen peroxide. However, when people are suffering from a disease, the production of ROS shoots up, and the natural scavenging mechanisms are not able to cope with. In such cases, we may have to control ROS levels artificially," says D'Silva.
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