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Extracellular Spermine Activates DNA Methyltransferase 3A and 3B.
Author: FukuiTaro, RikiyamaToshiki, SodaKuniyasu, TakaoKoichi
Original Abstract of the Article :
We first demonstrated that long-term increased polyamine (spermine, spermidine, putrescine) intake elevated blood spermine levels in mice and humans, and lifelong consumption of polyamine-rich chow inhibited aging-associated increase in aberrant DNA methylation, inhibited aging-associated pathologic...See full text at original site
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引用元:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6429523/
データ提供:米国国立医学図書館(NLM)
Extracellular Spermine's Role in DNA Methylation: A New Perspective on Aging
This research delves into the complex interplay between [polyamines], [DNA methylation], and [aging]. The study investigates the effects of [extracellular spermine supplementation] on [DNA methyltransferase (DNMT) activity] and [substrate concentrations] involved in DNA methylation. The researchers utilized [cell culture models] to examine the impact of spermine on DNMT activity and the balance of key methylation substrates. This research offers valuable insights into the potential for manipulating polyamine levels to influence DNA methylation patterns and potentially mitigate the effects of aging.
Spermine's Impact on DNMT Activity: A Potential Pathway to Slowing Aging
The study's findings suggest that [extracellular spermine] can directly activate [DNMT 3A and 3B], key enzymes involved in DNA methylation. The researchers observed that spermine supplementation led to [increased DNMT 3A and 3B activity], potentially influencing DNA methylation patterns and potentially impacting the aging process. This study highlights the potential for targeting polyamine metabolism as a strategy for influencing DNA methylation and potentially delaying the onset of age-related conditions.
Navigating the Desert of Aging: Exploring the Roles of Polyamines
This research on spermine and DNA methylation reminds us that the aging process is intricately linked to various cellular processes, including DNA methylation. Just as a desert traveler must learn to adapt to changing conditions, we must seek to understand and manipulate these processes to slow down the effects of aging. This study encourages further research into the role of polyamines in DNA methylation and their potential for influencing the aging process.
Dr. Camel's Conclusion
This research provides valuable insights into the role of extracellular spermine in activating DNMT 3A and 3B, highlighting its potential to influence DNA methylation patterns and potentially impact the aging process. The study encourages further investigation into the complex interplay between polyamines, DNA methylation, and aging.
Date :
- Date Completed 2019-06-26
- Date Revised 2023-12-13
Further Info :
Related Literature
English
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