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Alzheimer's Reversal Breakthrough: NAD+ Balance Restores Brain Function in Mice

A landmark study published in Cell Reports Medicine demonstrates that Alzheimer's disease can be reversed in animal models by restoring the brain's NAD+ balance. Researchers found a severe decline in this crucial energy molecule in both human Alzheimer's brains and diverse mouse models of the disease. Using a pharmacological agent called P7C3-A20 to restore NAD+ levels not only prevented the disease but also reversed major pathology and restored full cognitive function in mice with advanced Alzheimer's. This challenges the long-held belief that Alzheimer's is irreversible and opens a promising new pathway for potential human therapies.

Key Points: Alzheimer's Reversal Possible in Animal Studies via NAD+ Balance

  • NAD+ decline drives Alzheimer's
  • P7C3-A20 agent restores balance
  • Reversal seen in advanced disease
  • Cognitive function fully recovered
2 min read

Animal studies show Alzheimer's disease can be reversed

US researchers reverse Alzheimer's in mice by restoring NAD+ levels, challenging the century-old belief that the disease is irreversible. Human trials may follow.

"Restoring the brain's energy balance achieved pathological and functional recovery in both lines of mice with advanced Alzheimer's. - Andrew A. Pieper"

New Delhi, Dec 25

In a significant breakthrough, US researchers have found in animal studies that Alzheimer's disease can be reverse, challenging previous studies that for over a century considered the neurodegenerative disease to be irreversible.

The new study, published in the journal Cell Reports Medicine and based on diverse preclinical mouse models and human Alzheimer's brains, demonstrated that maintaining proper NAD+ balance can prevent and even reverse the disease.

NAD+ is a central cellular energy molecule and a major driver of Alzheimer's.

The team also showed that the decline in NAD+ is even more severe in the brains of people with Alzheimer's, and that this also occurs in mouse models of the disease.

"We were very excited and encouraged by our results," said Andrew A. Pieper, senior author of the study and Director of the Brain Health Medicines Center, Harrington Discovery Institute at University Hospitals.

"Restoring the brain's energy balance achieved pathological and functional recovery in both lines of mice with advanced Alzheimer's. Seeing this effect in two very different animal models, each driven by different genetic causes, strengthens the idea that restoring the brain's NAD+ balance might help patients recover from Alzheimer's," he added.

The team studied mice engineered to express genetic mutations that cause Alzheimer's in people in the laboratory. The researchers used two of these models.

One line of mice carried multiple human mutations in amyloid processing, and the other mouse line carried a human mutation in the tau protein.

After finding that NAD+ levels in the brain declined precipitously in both human and mouse Alzheimer's, the research team tested whether preventing the loss of brain NAD+ balance before disease onset, or restoring brain NAD+ balance after significant disease progression, could prevent or reverse Alzheimer's, respectively.

They restored NAD+ balance by administering a now well-characterised pharmacological agent known as P7C3-A20.

Remarkably, not only did preserving NAD+ balance protect mice from developing Alzheimer's, but delayed treatment in mice with advanced disease also enabled the brain to fix the major pathological events caused by the genetic mutations. Moreover, both lines of mice fully recovered cognitive function.

- IANS

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Reader Comments

R
Rohit P
Animal studies are one thing, human trials are another. We've seen many "breakthroughs" in mice that never work for people. Cautiously optimistic, but let's not get our hopes up too high just yet.
D
David E
The science behind NAD+ is fascinating. It's a core energy molecule. If restoring its balance can reverse cognitive decline, this is a paradigm shift. Hope Indian research institutes collaborate on the next phase.
A
Anjali F
My mother was just diagnosed. Reading this gives me a sliver of hope. But the cost of such future treatments will be key. Will it be accessible to the common man in India, or just for the rich?
S
Siddharth J
Great to see progress, but respectfully, the article focuses only on the US research. Indian scientists at IITs and AIIMS are also doing brilliant work in this field. Our media should highlight domestic achievements too.
K
Kavya N
"Pathological and functional recovery" - these are powerful words. If true, it means the brain can heal itself with the right support. This aligns with some ancient wellness principles too. A very positive development!

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