Thymic output is a dynamic process, with high activity at birth punctuated by transient periods of involution during infection. Interferon-α (IFN-α) is a critical molecular mediator of ...

As populations age worldwide, the decline of the immune system, a process known as immunosenescence, has become a critical biomedical challenge. This decline leads to increased susceptibility to ...

Immune function deteriorates with age because, in part, the thymus involutes, dramatically decreasing its immune cell output. New evidence indicates that in mice, thymic involution is caused by a ...

Aging significantly impacts the immune system, notably through the involution of the thymus, which reduces T cell production. This decline weakens immune responses, making older adults more ...

Scientists have discovered a way to reactivate the thymus to create new T-cells in adults with HIV. The new therapy can be used to stimulate the production of vital immune cells, called "T- cells," in ...

Scientists hoping to discover better ways to boost immune function — which could lengthen our healthspan and protect immunocompromised patients — may have a new target, according to findings published ...

As we age our thymus shrinks and is replaced by fatty tissue, losing its essential ability to grow and develop T cells and leaving us susceptible to infections, immune disorders and cancers. Institute ...

In the early 1900s, a strange disease was killing thousands of infants. Termed "status lymphaticus", it was blamed on the thymus, a small, grayish-pink gland weighing no more than 37 grams nestled ...

Cells of the thymus, known as thymocytes, play a critical role in the development of T-cells alongside a myriad of other specialized cells. Unfortunately, the thymus, a crucial organ for the adaptive ...

Preclinical models demonstrate potential to restore thymic function lost with aging reducing susceptibility to cancer, autoimmune diseases, infections, and reduced vaccine efficacy HOUSTON, April 10, ...