Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog

Category: life extension

Longevity-linked APOE2 gene variant helps neurons repair DNA and resist aging

People who carry the APOE2 version of the apolipoprotein E gene are more likely to live to advanced age and are partly protected against Alzheimer’s disease, but scientists have struggled to explain why. A new study from the Buck Institute for Research on Aging, now published in Aging Cell, offers a mechanistic answer: APOE2 helps human neurons keep their DNA intact and resist becoming senescent, a damaged, dysfunctional state that accumulates with age and contributes to neurodegeneration.

The findings shift attention away from APOE’s well-known role in cholesterol transport and toward a previously underappreciated function of the gene: shaping how brain cells maintain the integrity of their genome as they age.

“We’ve known for years that APOE2 carriers tend to live longer and have a lower risk of Alzheimer’s, but the protective mechanism has been a black box,” says senior author Lisa M. Ellerby, Ph.D., professor at the Buck Institute. “Our work shows that APOE2 neurons are better at preventing and repairing DNA damage, and they resist the cellular aging program that drives so much of late-life decline. Our findings point to entirely new therapeutic directions.”

Unprecedented view inside live stem cells reveals aging process and loss of regenerative capacity

Scientists have developed a powerful new technique that allows them to observe how individual cells manufacture proteins during aging, offering an unprecedented glimpse into the hidden molecular activity of stem cells in living tissue. As a result of the research, conducted at the Institute for Regenerative Medicine in Switzerland, scientists were able to observe aging unfold inside individual epidermal stem cells.

What scientists saw was the intricate choreography within stem cells and how those molecular dance steps slow and change with age. The team of Swiss scientists has concluded that the process of aging reshapes how skin stem cells manufacture proteins. The findings are published in the journal Molecular Cell.

The Startup Freezing Humans For Tomorrow — Interview with Dr Emil Kendziorra, CEO of Tomorrow.bio

Join us for a deep-dive conversation with Dr Emil Kendziorra, CEO of Tomorrow.bio, as we explore the cutting edge of cryopreservation and medical biostasis.

Dr Kendziorra, who began his career in cancer research with a summa cum laude degree from the University of Göttingen, shares his remarkable journey from academic science to entrepreneurship, and ultimately to founding Tomorrow.bio — a company he considers his life’s work.

In this interview, he discusses the motivations behind his pivot from traditional longevity research to the frontier of cryomedicine, the operational and emotional lessons learned from cryopreserving over 20 human patients and 10 pets, and his vision for making this technology more accessible in the future.

Tomorrow.bio stands as Europe’s fastest-growing cryopreservation company, with over 800 members across 200+ cities and 45+ countries. The company offers both whole-body cryopreservation and brain-only preservation, using a transparent pricing model designed for long-term value.

With a recent €5 million Seed round and a mission to advance medical biostasis, Emil discusses the unique challenges and opportunities of operating in this space, the ethical considerations of a technology that may not achieve revival for decades, and his long-term vision for the field.

Key Points.

Continue reading “The Startup Freezing Humans For Tomorrow — Interview with Dr Emil Kendziorra, CEO of Tomorrow.bio” | >

Age-Related ‘Unraveling’ of DNA May Be Reversible, Study Suggests

The slow march of time is inexorable and irreversible, but that doesn’t mean its effects on our bodies have to be etched in stone.

One of the more intriguing ideas in aging research is that growing old isn’t just a matter of damage accumulating over the years.

It may also be a story of lost information – the gradual breakdown of the molecular instructions that tell cells which genes to use and which to keep quiet.

Scientists say they’ve reversed brain aging with a simple nasal spray

Researchers at Texas A&M have developed a nasal spray that appears to reverse brain aging by calming inflammation and restoring the brain’s energy systems. After just two doses, memory and cognitive function improved for months, raising hopes for future treatments targeting dementia and brain fog.

Electrical pulses reverse aging in sea squirts, offering clues for extending human longevity

A tiny sea creature might hold the secret to reversing the aging process. When treated with a brief series of electrical pulses, sea squirts experience dramatic and long-lasting health improvements that can significantly extend their lifespans, according to a new study by researchers at Stanford and other institutions.

The findings, published in PNAS, open new possibilities for protecting marine species from warming waters, learning what causes stem cells in our own bodies to degrade, and potentially finding new ways to use these cells to treat medical conditions.

“This treatment recharges stem cells,” said study co-senior author Ayelet Voskoboynik, an assistant professor of biology in the Stanford School of Humanities and Sciences. “Understanding this mechanism is the key to unlocking how we might one day slow stem cell aging and trigger rejuvenation pathways.”

/* */