A new study finds that 'good' cholesterol is damaged by a sugar-derived substance, methylglyoxal (MG), was found to damage the 'good' cholesterol High Density Lipoprotein - HDL - which removes excess levels of bad cholesterol from the body.
Methylglyoxal is formed from glucose in the body. It is 40,000 times more reactive than glucose and damages arginine residue (amino acid) in HDL at functionally important site causing the particle to become unstable.
Low levels of HDL have been linked to heart disease, with increased levels of MG being common in the elderly and those with diabetes or kidney problems. The paper in Nutrition and Diabetes says that MG destabilizes HDL and causes it to lose the properties which protect against heart disease. HDL damaged by methylglyoxal is rapidly cleared from the blood, reducing its HDL content, or remains in plasma having lost its beneficial function./p>
Lead researcher Dr. Naila Rabbani, of the Warwick Medical School, says that, "MG damage to HDL is a new and likely important cause of low and dysfunctional HDL, and could count for up to a 10% risk of heart disease."
There are currently no drugs that can reverse low levels of HDL, but the Warwick researchers argue that by discovering how MG damages HDL has provided new potential strategies for reducing MG levels.
Commenting on the research's implications, Rabbani said, "By understanding how MG damages HDL we can now focus on developing drugs that reduce the concentration of MG in the blood, but it not only be drugs that can help. We could now develop new food supplements that decrease MG by increasing the amount of a protein called glyoxalase 1, or Glo 1, which converts MG to harmless substances.
"This means that in future we have both new drugs and new foods that can help prevent and correct low HDL, all through the control of MG."
Glo1 converts MG to harmless substances and protects us. MG levels are normally kept low in the body to maintain good health but they slowly increase with ageing as Glo1 slowly becomes worn out and is only slowly replaced.
Rabbani says, "We call abnormally high levels of MG 'dicarbonyl stress'. This occurs in some diseases – particularly diabetes, kidney dialysis, heart disease and obesity. We need sufficient Glo1 to keep MG low and keep us in good health."
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