Life-extending Hormone Boosts Body’s Immune Function

A hormone that extends lifespan in mice by 40% is produced by specialized cells in the thymus gland, according to a new study by Yale School of Medicine researchers.

The team also found that increasing the levels of this hormone, called FGF21, protects against the loss of immune function that comes with age. The findings have future implications for improving immune function in the elderly, for obesity, and for illnesses such as cancer and type-2 diabetes.

When functioning normally, the thymus produces new T cells for the immune system, but with age, the thymus becomes fatty and loses its ability to produce new T cells. This loss of new T cells in the body is one cause of increased risk of infections and certain cancers in the elderly.

FGF21 Deficiency

Led by Vishwa Deep Dixit, professor of comparative medicine and immunobiology at Yale School of Medicine, the researchers studied transgenic mice with elevated levels of FGF21.

FGF21 is a metabolic hormone that improves insulin sensitivity and also induces weight loss; therefore it is being studied for its therapeutic effects in type-2 diabetes and obesity. The team knocked out the gene’s function and studied the impact of decreasing levels of FGF21 on the immune system.

They found that increasing the levels of FGF21 in old mice protected the thymus from age-related fatty degeneration and increased the ability of the thymus to produce new T cells, while FGF21 deficiency accelerated the degeneration of the thymus in old mice.

“We found that FGF21 levels in thymic epithelial cells is several fold higher than in the liver, therefore FGF21 acts within the thymus to promote T cell production,” said Dixit.

“Elevating the levels of FGF21 in the elderly or in cancer patients who undergo bone marrow transplantation may be an additional strategy to increase T cell production, and thus bolster immune function.”

Dixit added that FGF21 is produced in the liver as an endocrine hormone. Its levels increase when calories are restricted to allow fats to be burned when glucose levels are low.

Further studies will focus on understanding how FGF21 protects the thymus from aging, and whether elevating FGF21 pharmacologically can extend the human healthspan and lower the incidence of disease caused by age-related loss of immune function.

“We will also look to developing a way to mimic calorie restriction to enhance immune function without actually reducing caloric intake.”

Yun-Hee Youm, et al.
Prolongevity hormone FGF21 protects against immune senescence by delaying age-related thymic involution
Proceedings of the National Academy of Sciences, www.pnas.org/cgi/doi/10.1073/pnas.1514511113