Researchers Discover Mechanism That Leads to Inflammatory Diseases
The mystery of how an inflammatory molecule is produced in the body has been uncovered by researchers.
The mystery of how an inflammatory molecule is produced in the body has been uncovered by researchers.
The discovery, Cedars-Sinai researchers say, could lead to advances in the treatment of rheumatoid arthritis, Type 2 diabetes and numerous other chronic diseases that affect tens of millions of people.
They identified for the first time the mechanism that leads to the production of the molecule interleukin-1beta.
It is a major contributor to inflammation, which lies at the root of many serious health conditions, including atherosclerotic heart disease and some types of strokes.
Current drug therapies seek to block this molecule's action after it is secreted by cells. However, the new research could lead to the development of treatments that would prevent the body from producing it, resulting in more effective medications and therapies for inflammatory diseases.
"If we understand how this molecule is made in the body, we may be able to block it before it is produced. Until now, this was the missing piece of the puzzle," said study author Dr. Moshe Arditi, executive vice chair of research in the Department of Pediatrics and director of the Division of Pediatric Infectious Diseases and Immunology.
Arditi, who also directs Cedars-Sinai's Infectious and Immunologic Diseases Research Center, found that damaged mitochondrial DNA activate specific proteins within dying cells, triggering the release of interleukin-1beta.
Previous research has shown the molecule, when over-secreted by cells, can be a significant contributor to major inflammatory diseases.
Arditi is planning further studies to build on the findings.
"The discovery by Arditi and colleagues has great potential to impact a wide range of inflammatory diseases, particularly in their early stages where an intervention could prevent more severe and debilitating ravages of such diseases," said Dr. Leon Fine, Cedars-Sinai's vice dean of research and chair of biomedical sciences.
"This discovery, at last, may open the door to such therapy," Dr. Fine stated.
The study has been published online by the peer-reviewed journal Immunity and will appear in the March print edition.
Source: ANI