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A Protein That Extends Mouse Lifespan Six-Fold Has Been Discovered by Researchers

Protein that extends the life of mice
Вчені виявили білок, який може значно подовжити тривалість життя мишей. Photo: НВ — Техно

Unlocking the Secrets of the Golden Spiny Mouse

According to НВ — Техно: A team from Yale School of Medicine and Tel Aviv University has uncovered remarkable traits in the golden spiny mouse. These rodents can live up to five years-far surpassing the typical nine-month lifespan of most mice. One key factor behind their longevity is their ability to heal skin wounds without forming scars, a capability that remains intact even in old age.

The study reveals that scar-free healing persists in aged golden spiny mice. Their thymus, a crucial component of the immune system, stays nearly unchanged and continues functioning well into their later years. Moreover, older individuals retain their learning and memory skills, indicating that cognitive abilities are preserved despite aging.

The Power of Clusterin Protein

The research also highlights elevated activity of the clusterin protein in the fat tissue of golden spiny mice. This protein helps eliminate misfolded proteins and reduces chronic inflammation. When scientists injected clusterin into standard laboratory mice, the results were striking:

  • They experienced slower declines in mobility;
  • Their organs remained healthier;
  • They showed reduced age-related inflammation.

A similar effect was observed in lab-grown human immune cells.

These findings could open new avenues in aging research and treatments for age-related diseases, as they demonstrate clusterin’s potential to improve health and extend lifespan. The golden spiny mouse is now a key model for exploring the mechanisms behind aging and tissue regeneration.

The study of golden spiny mice provides valuable insights into the biological processes that govern longevity and tissue repair.

Traits like scar-free healing and preserved cognitive function hold promise for developing new strategies to combat aging and its associated illnesses in humans. Future research will aim to determine how clusterin might be harnessed to benefit human health and what novel therapies could emerge from these discoveries.

In addition to the fascinating discoveries about the golden spiny mouse, recent research has also revealed that specific amino acid restrictions can significantly slow down the aging process. This finding underscores the complexity of longevity and provides further avenues for exploration in the fight against age-related decline. To learn more about this intriguing study, read about how certain dietary changes can impact lifespan.

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