The Bidirectional Relationship Between the Burden of Cellular Senescence and Immune Aging

June 16th, 2026

A cell becomes senescent given sufficient stress, molecular damage, or on reaching the Hayflick limit on replication. A senescent cell ceases replication, grows in size, and secretes a potent mix of pro-growth, pro-inflammatory signals. In a young individual, senescent cells are rapidly removed by the immune system, but this clearance slows with age. Senescent cells accumulate as a result in tissues throughout the aging body. The greater the number of senescent cells, the more disruptive their signaling becomes, changing the behavior of surrounding cells for the worse, degrading tissue structure, and rousing the immune system into a harmful state of constant inflammatory behavior. Studies have shown that selective clearance of senescent cells in older mice improves health, extends life, and turns back many aspects of age-related disease.

Today's open access paper reviews what is know of the bidirectional relationship between the burden of cellular senescence and state of the aging immune system. Senescent cells degrade the performance of the immune system, while the aging of the immune system allows greater numbers of senescent cells to accumulate. Like many of the interacting aspects of aging, each side exacerbates the other in a feedback loop that accelerates over time. Under the hood, the details are far more complex than this simple summary of the situation, of course, and there much is yet to be mapped and understood. Still, what is known more than justifies a far greater level of attention and funding to be given to clinical trials of senolytic therapies to clear senescent cells.