Views: 31 Author: Site Editor Publish Time: 2021-11-08 Origin: Site
Superoxide dismutase (SOD) is an enzyme that promotes the decomposition of toxic superoxide radicals into ordinary molecular oxygen (O2) or hydrogen peroxide (H2O2). Hydrogen peroxide is also destructive, but less destructive than superoxide radicals, and it is also degraded by catalase. SOD and glutathione neutralize active oxygen molecules in the body together.
SOD also plays a role in the cytoplasm of cells to prevent hydroxyl radicals from attacking enzymes, proteins and unsaturated fats in cell membranes. SOD is an extremely effective enzyme; it catalyzes the neutralization of superoxide almost as fast as the two spontaneously diffuse together in solution.
Oxidative stress is an imbalance between free radicals and antioxidants in the body. Free radicals are oxygen-containing molecules with an odd number of electrons, such as superoxide radicals. Superoxide free radicals need to be decomposed by superoxide dismutase, otherwise oxidative stress will accumulate in the body.
One of the main benefits of superoxide dismutase is to reduce oxidative stress and inflammation. Chronic inflammation is the basis of many health problems, so optimal superoxide dismutase levels are essential to reduce health problems associated with increased inflammation.
Superoxide dismutase is an enzyme that helps break down harmful oxygen molecules that cause tissue damage. It is an effective antioxidant and helps prevent oxidative stress in the body.
As the body ages, SOD levels usually decrease, making people more susceptible to oxidative stress and all health problems that increase oxidative stress and inflammation due to weakened antioxidant defenses. Increased levels of oxidative stress and inflammation are associated with many diseases, including:
1. Neurodegenerative diseases
2. Rheumatoid Arthritis
5. Even cancer
Maintaining internal antioxidant defenses is essential to prevent the buildup of oxidative stress and inflammation in the body.
Superoxide dismutase plays a key role in reducing oxidative stress by breaking down reactive oxygen species (ROS). Excessive ROS can cause tissue damage and excessive inflammation.
Superoxide dismutase is an enzyme that decomposes superoxide radicals into molecular oxygen and hydrogen peroxide. Superoxide free radicals are by-products of oxygen metabolism. The health benefits of superoxide dismutase include:
1. Prevent enzyme denaturation
2. Prevent oxidized lipids
3. Prevent DNA fragmentation
In order to prevent damage caused by oxidative stress,SOD enzymes must decompose superoxide free radicals.
For more health benefits of superoxide dismutase, in addition to helping eradicate free radicals, SOD is also used to help: wrinkle, Rebuild the organization, extend your life, Treat pain and swelling (inflammation), Interstitial Cystitis, gout, Poisoning caused by a herbicide called paraquat, cancer, Newborn’s lung problems, Improve tolerance to radiation therapy, Reduce renal transplant rejection rate, Minimize heart damage caused by a heart attack.
Oxidative stress is an imbalance between free radicals and antioxidants in the body. Free radicals are oxygen-containing molecules with an odd number of electrons, such as superoxide radicals. Superoxide free radicals need to be decomposed by superoxide dismutase, otherwise oxidative stress will accumulate in the body.Superoxide radicals are decomposed into molecular oxygen and hydrogen peroxide, but hydrogen peroxide still needs to be further reduced to water by glutathione. Glutathione is another important antioxidant produced by the body that can fight excessive inflammation.
Antioxidants are molecules that scavenge free radicals in the body by providing an electron to reduce the activity of free radicals in the body. Fruits and vegetables contain antioxidants, which is why a high plant-based diet rich in antioxidants plays a vital role in reducing oxidative stress and inflammation in the body.
Inflammation and oxidative stress are natural defenses against pathogens such as viral or bacterial infections, tissue damage, exposure to allergens and toxic chemicals that stimulate the inflammatory immune response. As part of the human immune response, immune cells such as lymphocytes, macrophages and neutrophils release superoxide free radicals and hydrogen peroxide to fight pathogens. As a result of fighting infections, oxidative stress and inflammation levels increase, which need to be broken down by antioxidants in the body (such as superoxide dismutase and glutathione) so that these free radicals will not continue to cause tissue damage.