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Scientists make old blood stem cells young again in major anti-aging breakthrough

Researchers discovered a way to make old blood stem cells act young again — potentially unlocking new anti-aging and regenerative therapies.

Date:

May 12, 2026

Source:

The Mount Sinai Hospital / Mount Sinai School of Medicine

Summary:

As blood stem cells age, their lysosomes become overactive and damaged, triggering inflammation and weakening the body’s ability to regenerate healthy blood and immune cells. By calming this cellular “overdrive,” researchers restored the stem cells’ youthful function, dramatically boosting their ability to regenerate and produce balanced blood cells.

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Scientists at Mount Sinai have discovered a surprising way to make old blood stem cells act young again in mice — by fixing tiny cellular recycling centers called lysosomes. Credit: Shutterstock

Scientists at the Icahn School of Medicine at Mount Sinai have successfully reversed aging in blood-forming stem cells in mice by repairing defects in structures known as lysosomes. The findings, published in Cell Stem Cell, point to lysosomal dysfunction and overactivity as major causes of stem cell aging and show that restoring proper lysosomal activity can rejuvenate old stem cells and improve their ability to regenerate blood and immune cells.

Lysosomes function as the cell's internal recycling centers. They break down proteins, nucleic acids, carbohydrates, and lipids, helping cells dispose of waste and reuse materials for essential biological processes. They also store nutrients that can be released when needed. Because of these roles, lysosomes are critical for maintaining cellular metabolism, including both catabolism (breaking down complex molecules to simple ones) and anabolism (building complex molecules from simpler ones).

The research team focused on hematopoietic stem cells (HSCs), which are rare, long-lasting stem cells found in the bone marrow that generate all blood and immune cells in the body. The study was led by Saghi Ghaffari, MD, PhD, Professor of Cell, Developmental, and Regenerative Biology at the Icahn School of Medicine and a member of the Black Family Stem Cell Institute.

As people grow older, these stem cells gradually lose their ability to repair and replenish the blood system. This decline weakens immune defenses and contributes to the increased vulnerability to infections seen in older adults. Aging HSCs are also linked to clonal hematopoiesis, an asymptomatic condition considered a premalignant state that raises the risk of blood cancers and inflammatory diseases. The condition becomes much more common with age.

According to the American Cancer Society, age and smoking are the two strongest risk factors associated with the five-year risk of developing cancer. Data from the National Cancer Institute's Surveillance, Epidemiology, and End Results report show that the median age at cancer diagnosis is 67.

Restoring Old Stem Cells to a Youthful State

The researchers discovered that lysosomes in aged HSCs become excessively acidic, damaged, depleted, and abnormally active. These changes disrupt both the metabolic balance and epigenetic stability of the stem cells.

Using single-cell transcriptomics and functional testing, the team found that blocking this excessive lysosomal activity with a vacuolar ATPase inhibitor restored lysosomal health and improved the function of aging blood stem cells.

After treatment, the old stem cells began behaving more like young, healthy cells again. They regained the ability to regenerate effectively, produce balanced blood and immune cells, and generate additional healthy stem cells. The treated cells also showed improved metabolism and mitochondrial performance, healthier epigenetic patterns, reduced inflammation, and fewer harmful inflammatory signals that can damage tissues throughout the body.

"Our findings reveal that aging in blood stem cells is not an irreversible fate. Old blood stem cells have the capacity to revert to a youthful state; they can bounce back," said Dr. Ghaffari. "By slowing down the lysosomes and reducing their acidity, stem cells became healthier and could make new balanced blood cells and new stem cells much more effectively. By targeting lysosomal hyperactivity, we were able to reset aged stem cells to a younger, healthier state, improving their ability to regenerate blood and immune cells."

Major Increase in Blood-Forming Capacity

The researchers also tested an ex vivo treatment approach (when cells are removed from the body, modified in a laboratory, and returned to the body). Treating old stem cells with the lysosomal inhibitor increased their blood-forming ability in living animals by more than eightfold, highlighting the powerful regenerative effects of correcting lysosomal dysfunction.

The improvement also reduced damaging inflammatory and