Measuring thymic output across the human lifespan: a critical challenge in laboratory medicine

Abstract

Age-associated thymic involution leads to a significant decline in thymic T cell output, a major contributor to immunosenescence in the elderly. Accurately measuring thymic output is therefore critical for understanding the mechanisms behind immune aging. Furthermore, robust quantification of thymic output is essential in various other clinical and research settings, including the diagnosis of immunodeficiencies and the monitoring of T cell reconstitution following therapeutic interventions like hematopoietic stem cell transplantation. Current methodologies for measuring thymic output include T cell receptor excision circle (TREC) quantification via quantitative polymerase chain reaction and the enumeration of recent thymic emigrants (RTEs) using flow cytometry. However, TREC-based assays are inherently insensitive to subtle changes in thymic output, limiting their applicability beyond neonatal immunodeficiency screening. Similarly, RTE enumeration presents challenges; while surface markers exist for CD4⁺ RTEs, validated markers for CD8⁺ cytotoxic T lymphocytes are lacking. This represents a significant knowledge gap, particularly as aging has been shown to disproportionally affect the CD8 T cell pool. Moreover, while flow cytometry effectively measures mature naïve T cells, these cells do not accurately represent real-time thymic output, as they can persist in peripheral circulation for extended periods. These limitations highlight the pressing need for more accurate and sensitive methods to assess thymic output. Improved measurement techniques would not only enhance our understanding of thymic involution in the context of aging but also enable large-scale investigations into thymic function and the mechanisms driving its decline in both health and disease. In this review, we examine current methodologies for measuring thymic output in humans, critically evaluate their limitations, and discuss emerging approaches to address these gaps in the field.