Immune responses in aging adults
Cornelia M. Weyand, Jörg J. Goronzy
Cornelia M. Weyand, Jörg J. Goronzy
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Immune responses in aging adults

Abstract

As a widely distributed network of cells, tissues, and organs, the human immune system is profoundly vulnerable to the effects of aging. Intrinsic and extrinsic stressors progressively erode its structural integrity and functional resilience, weakening core protective responses and increasing susceptibility to infection, malignancy, and tissue degeneration. At the same time, aging heightens the risk of chronic inflammation and autoimmune disease. Hematopoietic stem cells become uniquely compromised as aging intensifies metabolic and replicative stress. Their continuous high-volume turnover results in diminished self-renewal capacity, skewed lineage output, and dominance of expanded clones. These changes undermine innate immune competence and amplify inflammatory activity. Adaptive immune function declines with age through coordinated cellular and molecular programs. T and B lymphocytes exhibit a decline in naive cells, progressive loss of stemness, shortened lifespan, and constrained clonal diversity. Aging lymphocytes reconfigure transcriptional networks, undergo widespread organelle dysfunction, develop maladaptive stress responses, and redistribute into noncanonical tissue niches. Collectively, these alterations reduce antigen specificity and precision, promote innate-like immune behavior, and confer resistance to tolerance. These mechanisms result in concurrent immunodeficiency and autoimmunity, exemplified by two autoimmune diseases disproportionately affecting older adults: rheumatoid arthritis and giant cell arteritis.

Authors

Cornelia M. Weyand, Jörg J. Goronzy

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Figure 2

T cell aging: loss of stemness, transcriptional drift, and functional rewiring.

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T cell aging: loss of stemness, transcriptional drift, and functional re...
T cells possess intrinsic stemness programs and are exceptionally long-lived, yet they are not exempt from aging. Cell intrinsic aging is governed by changes in gene-regulatory networks that preserve T cell stemness and suppress terminal differentiation. With age, key regulators such as TCF1, SOX4, and HELIOS decline. Their loss enables the upregulation of differentiation promoting transcription factors, driving T cells toward irreversible lineage commitment. One downstream consequence is the progressive deterioration of lysosomal function, impairing cellular waste clearance and enabling aberrant mTORC1 activation. This metabolic shift disrupts quiescence and accelerates functional decline. Intrinsic changes are reinforced by extrinsic aging factors arising from tissue and organ aging, including senescent stromal niches and functionally altered antigen presenting cells. Together, these pressures erode tolerance mechanisms and redirect aging T cells toward innate-like and cytotoxic effector phenotypes, reducing immune precision and increasing inflammatory potential.