Exposure to certain chemicals, including aldehydes, a class of organic compounds commonly found in alcohol, pollution, and smoke, can lead to premature aging, according to a new study.
Aldehydes Disrupt Enzyme Function
Previous research has already established that several types of aldehydes are detrimental to human health.“DNA damage is linked with aging phenotypes,” Yasuyoshi Oka, a researcher on the team, said. “However, for the first time, we propose a relationship between aldehyde-derived DNA damage and premature aging.”
Aldehydes are harmful because they can interact with the body’s DNA and proteins. When aldehydes enter the body, they form DNA-protein crosslinks (DPCs) that disable enzymes vital for cell proliferation and maintenance from functioning correctly. Their dysfunction can lead to premature aging.
Hope for Premature Aging Disease Therapies
The findings have implications for a better understanding of the aging process in healthy individuals.“By elucidating the role of aldehydes in DNA damage and aging, we are paving the way for future studies aimed at developing novel treatments and interventions,” Mr. Oka said.
The research has implications for the development of therapeutic drugs to treat diseases that lead to premature aging. Since this is the first time scientists have been able to identify the mechanisms and pathology underlying aging, drug manufacturers can use this information to develop targeted treatments, the researchers noted.
“The development of therapeutic drugs has not progressed because we have not fully understood the causes of AMeD syndrome and Cockayne syndrome,” Mr. Oka added. Cockayne syndrome is a rare genetic condition characterized by sensitivity to sunlight, short stature, and the appearance of premature aging in affected individuals.
The researchers say their insights into the role of aldehydes and DPCs in the disease process may help pave the way for the development of targeted treatments that remove harmful aldehydes, potentially helping patients.
