Men are losing a key chromosome with age and it may be deadly
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Men are losing a key chromosome with age and it may be deadly
Date:
March 20, 2026
Source:
The Conversation
Summary:
Aging men often lose the Y chromosome in a growing number of their cells—and it may be far more dangerous than once believed. This loss has been linked to heart disease, cancer, Alzheimer’s, and shorter lifespans. Researchers suspect Y-less cells may grow faster and disrupt normal body functions. What seemed like a minor genetic quirk could actually be a major driver of age-related disease.
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FULL STORY
Losing the Y chromosome with age may quietly increase men’s risk of major diseases—and shorten their lives. Credit: Shutterstock
As men grow older, some of their cells gradually lose the Y chromosome. For a long time, scientists assumed this change would have little impact. The Y chromosome contains relatively few genes beyond those involved in male development, so its absence was not expected to affect overall health.
That view has shifted. Research over the past several years shows that losing the Y chromosome is linked to serious health problems across the body and may contribute to a shorter lifespan.
How Common Is Y Chromosome Loss?
Advances in genetic detection have revealed that Y chromosome loss is widespread in older men. The pattern becomes more pronounced with age: about 40% of men in their 60s show some loss, rising to 57% by age 90. Environmental exposures such as smoking and contact with carcinogens can increase the likelihood of this change.
The loss does not occur in every cell. Instead, it creates a mix of cells with and without the Y chromosome, a condition known as mosaicism. Once a cell loses the Y, all of its future copies also lack it. Laboratory studies suggest that cells without the Y may grow faster than normal cells, which could give them an advantage in tissues and even in tumors.
The Y chromosome is especially vulnerable during cell division. It can be accidentally excluded and left behind in a small membrane-bound structure that is later discarded. Because of this, tissues where cells divide quickly are more likely to accumulate Y chromosome loss.
Why a Small Chromosome Matters
The human Y chromosome is unusual. It contains only 51 protein-coding genes (not counting multiple copies), compared with thousands found on other chromosomes. Its known roles include determining male sex and supporting sperm production, but it was long thought to have limited functions beyond that.
In laboratory settings, cells can lose the Y chromosome and still survive, which reinforced the idea that it is not essential for basic cellular function. In fact, some marsupials lose the Y early in development, and in mammals the chromosome has been shrinking for about 150 million years. In certain rodents, it has even disappeared and been replaced.
Given this history, losing the Y chromosome later in life was once considered insignificant.
Links to Disease and Shorter Lifespan
Despite earlier assumptions, growing evidence connects Y chromosome loss to major health conditions. Studies have linked it to cardiovascular disease, neurodegenerative disorders, and cancer.
For example, higher levels of Y loss in kidney cells are associated with kidney disease. Large population studies have also found that men over 60 with more Y-deficient cells face a greater risk of heart attacks.
Loss of the Y chromosome has been tied to worse outcomes from COVID, which may help explain why men have higher mortality rates. It is also found much more frequently in individuals with Alzheimer's disease. In addition, multiple studies show connections between Y loss and various cancers, along with poorer survival among affected patients. Cancer cells themselves often exhibit this chromosomal loss alongside other abnormalities.
Cause or Consequence?
It remains challenging to determine whether losing the Y chromosome directly causes disease or simply occurs alongside it. In some cases, illness or tissue repair may lead to increased cell division, which could raise the chance of losing the chromosome.
Genetic factors also appear to play a role. Research suggests that about one-third of the variation in Y chromosome loss is inherited, involving around 150 genes related to cell cycle control and cancer risk.
However, experimental evidence points toward a more direct effect. In one study, mice that received Y-deficient blood cells developed more age-related conditions, including reduced heart function and eventual heart failure.
There are also signs that Y chromosome loss can directly influence cancer behavior. In some cases, it may promote tumor growth and aggressiveness, including in eye melanoma, which occurs more often in men.
What the Y Chromosome Does in the Body
The health effects linked to Y chromosome loss suggest it plays a broader role than once believed. But how can a chromosome with so few g