By Okinawa Institute of Science and Technology (OIST) Graduate University February 25, 2024
A groundbreaking study has discovered that cell membrane damage can lead to cellular senescence, a state associated with aging and disease. This adds a third possible outcome to the previously understood consequences of cell damage—recovery or death. The research highlights the impact of moderate membrane damage on cell fate and opens new paths for promoting healthy aging by understanding and manipulating the underlying mechanisms of cellular senescence. Credit: SciTechDaily.com
Recent research has discovered that physical harm to the cell’s outer layer can trigger aging at the cellular level in human cells.
The delicate membrane encasing our cells measures just 5 nanometers in thickness—merely 1/20th the width of a soap bubble. This membrane is susceptible to damage from everyday physiological activities, such as muscle movements and injuries to tissues. In response to this vulnerability, cells possess repair systems capable of mending membrane damage to some extent.
Mechanical damage to the cell membrane was previously believed to trigger two simple cellular outcomes: recovery or death. In this study, however, the researchers uncovered a third outcome – cellular senescence.
“When I started this project, I simply aimed to understand the repair mechanisms of the damaged cell membrane,” recalls Professor Keiko Kono, head of the Membranology unit and senior author of this study, which involved multiple members from the unit, including Kojiro Suda, Yohsuke Moriyama, Nurhanani Razali, and colleagues. “Unexpectedly, we ended up discovering that cell membrane damage, in a sense, switches cell fate.”
Mechanisms of Cellular Fate Determination
The key to determining cell fate is the extent of damage and subsequent calcium ion influx. The thin cell membrane damage can be easily repaired, allowing the cells to continue cell division without any trouble. The highest level of cell membrane damage induces cell death. However, a middle level of cell membrane damage turns the cells into senescent cells several days later, even though membrane resealing seems successful.
Kintsugi, the traditional Japanese art of repairing broken pottery by mending cracks with lacquer and gold. Kintsugi visibly incorporates the history of an object into its new form. In this analogy, cell membrane damaged is repaired, however, rather than restoring the cell to its original form, the new cellular nature is irreversibly changed and the cells behave differently in our body. Credit: Amy Cao, Salk Institute
Cancer cells divide unlimitedly. In contrast, non-cancerous normal cells have a limited capacity for cell division – around 50 times before division is irreversibly stopped, and the cells enter a state known as cellular senescence. Senescent cells are still metabolically active, but unlike young and healthy cells, they produce various secretory proteins that upregulate immune responses in both nearby tissues and distant organs. This mechanism can induce both beneficial and detrimental changes in our body, including acceleration of wound healing, cancer promotion, and aging. During the last decade, numerous studies have reported that senescent cells exist in animal bodies, including humans, and that the removal of senescent cells can rejuvenate body functions in experimental animals.
New Insights into Cellular Senescence
However, the cause of cell senescence in the human body remains a controversial topic. “The gene expression profile and bioinformatics suggested that cell membrane damage explains the origin of senescent cells in our bodies, specifically the ones near damaged tissues,” explains Professor Kono.
The best-established inducer of cellular senescence is repeated cell division. Many other stresses also induce cellular senescence in a laboratory setting, such as DNA damage, oncogene activation, and epigenetic changes. The long-standing dogma in the research field was that various stresses induce cellular senescence ultimately via the activation of DNA damage response. However, the authors uncovered that cell membrane damage induces cellular senescence via a different mechanism that involves calcium ions and the tumor suppressor gene p53. These findings may contribute to develop a strategy to achieve healthy longevity in the future.
Reference: “Plasma membrane damage limits replicative lifespan in yeast and induces premature senescence in human fibroblasts” by Kojiro Suda, Yohsuke Moriyama, Nurhanani Razali, Yatzu Chiu, Yumiko Masukagami, Koutarou Nishimura, Hunter Barbee, Hiroshi Takase, Shinju Sugiyama, Yuta Yamazaki, Yoshikatsu Sato, Tetsuya Higashiyama, Yoshikazu Johmura, Makoto Nakanishi and Keiko Kono, 22 February 2024, Nature Aging.
DOI: 10.1038/s43587-024-00575-6
Funding: Japan Advanced Plant Science Network, MEXT Japan, Japan Society for the Promotion of Science, Japan Agency for Medical Research and Development, Ono Medical Research Foundation, Princess Takamatsu Cancer Research Fund, Relay For Japan Cancer Society, Naito Foundation.
Note: This article have been indexed to our site. We do not claim legitimacy, ownership or copyright of any of the content above. To see the article at original source Click Here
Boxbollen Original with App, Used by Celebrities - MMA Gear Boxing Ball - Boxing Reflex Ball with Adjustable Strap - Interactive Boxball App Integration - 1 Pack
$28.99 (as of December 21, 2024 19:33 GMT +00:00 - More infoProduct prices and availability are accurate as of the date/time indicated and are subject to change. Any price and availability information displayed on [relevant Amazon Site(s), as applicable] at the time of purchase will apply to the purchase of this product.)
Sonic X Shadow Generations - Nintendo Switch
$39.97 (as of December 21, 2024 19:12 GMT +00:00 - More infoProduct prices and availability are accurate as of the date/time indicated and are subject to change. Any price and availability information displayed on [relevant Amazon Site(s), as applicable] at the time of purchase will apply to the purchase of this product.)
Apple AirTag
(as of December 21, 2024 19:12 GMT +00:00 - More infoProduct prices and availability are accurate as of the date/time indicated and are subject to change. Any price and availability information displayed on [relevant Amazon Site(s), as applicable] at the time of purchase will apply to the purchase of this product.)
Carhartt Men's Loose Fit Heavyweight Short-Sleeve Pocket T-Shirt
$17.95 (as of December 21, 2024 19:33 GMT +00:00 - More infoProduct prices and availability are accurate as of the date/time indicated and are subject to change. Any price and availability information displayed on [relevant Amazon Site(s), as applicable] at the time of purchase will apply to the purchase of this product.)
![[Covid 19] Comment le prometteur outil de BioNTech et Instadeep mêle modélisation biostructurelle et IA pour repérer les variants à risque thumbnail](https://www.industrie-techno.com/mediatheque/6/7/1/000047176_210x140_c.jpg)
