BACKGROUND: T-cell development in the thymus is an extensively studied subject, mainly in mice. Nevertheless, the normal composition and cell numbers of the noninvoluted human thymus are largely unknown. OBJECTIVE: We aimed to gain insight into age-related changes in different thymic subpopulations and to provide reference values for the distribution of thymocyte subsets. The composition of the normal thymus may serve as a reference for thymi in pathological conditions and may aid diagnoses of immunodeficiency diseases. METHODS: Thymic lobes of 70 children (58 immunologically normal and 12 diseased), ranging in age from 8 days to 8 years old, were studied by 4-color flow-cytometric analysis. Detailed staining and gating strategies allowed us to dissect small subsets, including immature CD4(-) CD8(-) populations and thymic B, natural killer, and T-cell receptor gammadelta + cells. RESULTS: We demonstrate that distribution of thymocyte subsets changes with age and correlates with age-related fluctuations of T-lymphocyte counts in peripheral blood. Thymi of children 3 to 6 months old appear to be the most active: they have high numbers of total thymocytes, the highest percentage of double-positive cells, and large numbers of CD34 + progenitors in their thymi. Furthermore, we show that the human thymus is a site for B-cell development, because all B-cell progenitor stages that can be found in the bone marrow are also present in the thymus. CONCLUSION: We conclude that T-cell development in children is a dynamic process, answering the demands of a maturing and expanding immune system.
BACKGROUND: T-cell development in the thymus is an extensively studied subject, mainly in mice. Nevertheless, the normal composition and cell numbers of the noninvoluted human thymus are largely unknown. OBJECTIVE: We aimed to gain insight into age-related changes in different thymic subpopulations and to provide reference values for the distribution of thymocyte subsets. The composition of the normal thymus may serve as a reference for thymi in pathological conditions and may aid diagnoses of immunodeficiency diseases. METHODS: Thymic lobes of 70 children (58 immunologically normal and 12 diseased), ranging in age from 8 days to 8 years old, were studied by 4-color flow-cytometric analysis. Detailed staining and gating strategies allowed us to dissect small subsets, including immature CD4(-) CD8(-) populations and thymic B, natural killer, and T-cell receptor gammadelta + cells. RESULTS: We demonstrate that distribution of thymocyte subsets changes with age and correlates with age-related fluctuations of T-lymphocyte counts in peripheral blood. Thymi of children 3 to 6 months old appear to be the most active: they have high numbers of total thymocytes, the highest percentage of double-positive cells, and large numbers of CD34 + progenitors in their thymi. Furthermore, we show that the human thymus is a site for B-cell development, because all B-cell progenitor stages that can be found in the bone marrow are also present in the thymus. CONCLUSION: We conclude that T-cell development in children is a dynamic process, answering the demands of a maturing and expanding immune system.
Authors: Martijn H Brugman; Anna-Sophia Wiekmeijer; Marja van Eggermond; Ingrid Wolvers-Tettero; Anton W Langerak; Edwin F E de Haas; Leonid V Bystrykh; Jon J van Rood; Gerald de Haan; Willem E Fibbe; Frank J T Staal Journal: Proc Natl Acad Sci U S A Date: 2015-10-19 Impact factor: 11.205
Authors: Thomas Welte; Jacquelyn Lamb; John F Anderson; Willi K Born; Rebecca L O'Brien; Tian Wang Journal: FEMS Immunol Med Microbiol Date: 2008-05-29
Authors: Christopher J Haines; Thierry D Giffon; Li-Sheng Lu; Xiaowei Lu; Marc Tessier-Lavigne; Douglas T Ross; David B Lewis Journal: J Exp Med Date: 2009-01-26 Impact factor: 14.307