Close Menu
    Facebook X (Twitter) Instagram
    SciTechDaily
    • Biology
    • Chemistry
    • Earth
    • Health
    • Physics
    • Science
    • Space
    • Technology
    Facebook X (Twitter) Pinterest YouTube RSS
    SciTechDaily
    Home»Health»New Research Suggests That Cutting Exposure to Common Chemicals Could Slow Aging
    Health

    New Research Suggests That Cutting Exposure to Common Chemicals Could Slow Aging

    By Nagoya UniversityApril 14, 2024No Comments4 Mins Read
    Facebook Twitter Pinterest Telegram LinkedIn WhatsApp Email Reddit
    Share
    Facebook Twitter LinkedIn Pinterest Telegram Email Reddit
    Aging Time Clock Concept
    Researchers at Nagoya University have linked aldehydes, byproducts from alcohol, pollution, and smoke, to premature aging and DNA damage, proposing potential strategies to mitigate aging effects and highlighting the impact of environmental factors on health.

    Researchers at Nagoya University in Japan have discovered that aldehydes are metabolic byproducts associated with premature aging. Published in Nature Cell Biology, their findings reveal insights into premature aging diseases and potential strategies to combat aging in healthy individuals such as controlling exposure to aldehyde-inducing substances including alcohol, pollution, and smoke.

    A person’s health can be harmed by aldehydes. However, the group’s findings suggest these detrimental effects also include aging. The team who made this discovery included Yasuyoshi Oka, Yuka Nakazawa, Mayuko Shimada, and Tomoo Ogi of Nagoya University.

    “DNA damage is linked with aging phenotypes,” said Oka. “However, for the first time, we propose a relationship between aldehyde-derived DNA damage and premature aging.”

    Link Between Aldehydes and Aging

    The researchers hypothesized that there might be a link between aldehydes and aging since individuals with premature aging disorders, like AMeD syndrome, exhibit inadequate activity of enzymes, like ALDH2, that break down aldehydes.

    For healthy individuals, ALDH2 is also important in our response to alcohol. When a person drinks wine or beer, the liver metabolizes the alcohol into aldehydes so it can be eliminated from the body. The activity of ALDH2 is important for converting the aldehydes into a non-toxic substance.

    Histones Are Crosslinked With DNA Following Formaldehyde Exposure
    Histones are crosslinked with DNA (histone-DPC) following formaldehyde exposure, leading to the malfunction of cellular processes such as transcription. Credit: Reiko Matsushita

    Aldehydes are harmful because they are highly reactive with DNA and proteins. In the body, they form DNA-protein crosslinks (DPCs) that block important enzymes in typical cell proliferation and maintenance processes, causing these processes to malfunction and the patient to age.

    Focusing on DPCs caused by aldehyde, the scientists used a method called DPC-seq to investigate the link between aldehyde accumulation and DNA damage in premature-aging disease patients. In a series of experiments, the researchers discovered that the TCR complex, VCP/p97, and the proteasome are involved in the removal of formaldehyde-induced DPCs in actively transcribed regions. This was confirmed by a mouse model lacking both aldehyde clearance processes and the TCR pathway that showed worse AMeD syndrome symptoms.

    These processes are important because they are related to the clearance of aldehydes. It suggests an association between premature aging diseases and aldehyde accumulation.

    Research Findings and Future Directions

    Professor Ogi is hopeful about the implications of their findings, stating: “By elucidating the mechanism by which DNA damage heals quickly, we have revealed part of the cause of genetic premature aging.”

    “Our research opens up new avenues for understanding the underlying mechanisms of premature aging diseases and offers potential targets for therapeutic intervention,” Oka said. “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.”

    He continued: “The development of therapeutic drugs has not progressed because we have not fully understood the causes of AMeD syndrome and Cockayne syndrome. This study suggests that the patient’s pathological condition is related to DPC derived from aldehydes generated within cells. These results are expected to help in the search for compounds that remove aldehydes, thus aiding in the formulation of therapeutic drug candidates.”

    This research has implications that extend beyond genetic diseases, as their findings suggest that aldehyde-induced DNA damage may play a role in the aging process in healthy individuals too. By pinpointing aldehydes as substances that contribute to aging, this study sheds light on the intricate connection between environmental factors and cellular aging. This may have significant implications for human health and lifespan.

    Reference: “Endogenous aldehyde-induced DNA–protein crosslinks are resolved by transcription-coupled repair” by Yasuyoshi Oka, Yuka Nakazawa, Mayuko Shimada and Tomoo Ogi, 10 April 2024, Nature Cell Biology.
    DOI: 10.1038/s41556-024-01401-2

    Never miss a breakthrough: Join the SciTechDaily newsletter.
    Follow us on Google and Google News.

    Aging Cell Biology Metabolism Nagoya University Popular
    Share. Facebook Twitter Pinterest LinkedIn Email Reddit

    Related Articles

    Next-Generation Cancer Drug Found To Slow Aging and Boost Longevity in Lab Study

    Higher Blood Fats More Harmful Than Previously Thought – Can Damage Muscle Cells

    Chemical Compound Promotes Healthy Aging – Add Muscle, Strength and Energy While Losing Fat

    Researchers Find Belly Fat Is Resistant to Intermittent Fasting – “The Location Makes a Big Difference”

    Scientists Look to Animals and Find Out What May Make Certain People More Vulnerable to COVID-19

    Rapid Mental Rejuvenation: Experimental Drug Reverses Age-Related Cognitive Decline Within Days

    Scientists Reverse the Aging Clock: Restore Age-Related Vision Loss Through Epigenetic Reprogramming

    When Cancer Cells Can’t Make Their Own Fat, They Eat What’s Around Them

    Intermittent Fasting and Manipulating Mitochondrial Networks May Increase Lifespan

    Leave A Reply Cancel Reply

    • Facebook
    • Twitter
    • Pinterest
    • YouTube

    Don't Miss a Discovery

    Subscribe for the Latest in Science & Tech!

    Trending News

    Black Hole Shredded a Massive Star in the Most Powerful Stellar Explosion Ever Seen

    Building the Brain Requires Millions of Dangerous DNA Breaks

    Endless Supply of Cancer-Fighting Immune Cells Unlocked by USC Scientists

    XRISM Reveals Galaxy-Shaping Winds Erupting From a Supermassive Black Hole

    New Molecule Restores the Brain’s Natural Defenses Against Alzheimer’s

    Could Creatine Boost More Than Muscles? It May Also Help Depression

    Scientists Discover a Natural Molecule That Could Help Prevent Vision Loss

    Scientists Thought Royal Jelly Made Queen Bees. They Were Wrong

    Follow SciTechDaily
    • Facebook
    • Twitter
    • YouTube
    • Pinterest
    • Newsletter
    • RSS
    SciTech News
    • Biology News
    • Chemistry News
    • Earth News
    • Health News
    • Physics News
    • Science News
    • Space News
    • Technology News
    Recent Posts
    • “One in a Million” Find: Soft Tissue Discovered in 450-Million-Year-Old Fossil
    • Why You Hate Eating Bugs: DNA Reveals a 9,000-Year-Old Legacy
    • Strange “Chimeric” RNA Linked to Women’s Health and Wellness
    • Scientists Uncover New Plant Species Hidden in Plain Sight for More Than 100 Years
    • Chimpanzees Keep Throwing Stones at the Same Trees – Scientists Want To Know Why
    Copyright © 1998 - 2026 SciTechDaily. All Rights Reserved.
    • Science News
    • About
    • Contact
    • Editorial Board
    • Privacy Policy
    • Terms of Use

    Type above and press Enter to search. Press Esc to cancel.