TY - JOUR
T1 - Pubertal stage specific changes in T-cell subpopulations in healthy individuals
AU - Boer, Harm den
AU - Terpstra, Anniek M.
AU - Betjes, Michiel G.H.
AU - Bouts, Antonia H.M.
AU - Cornelissen, Elisabeth A.M.
AU - van der Eijk, Annemiek A.
AU - van der Kaay, Daniëlle C.M.
AU - Meys, Karlijn M.E.
AU - Rings, Edmond H.H.M.
AU - Heezen, Kim C.
AU - de Jong, Huib
AU - Langerak, Anton W.
AU - Vrieling-Prince, Femke H.M.
N1 - Publisher Copyright:
© The Author(s) 2025.
PY - 2025/12/8
Y1 - 2025/12/8
N2 - This study investigates how puberty affects T-cell subpopulations in healthy individuals, aiming to understand why kidney transplant outcomes are worse during adolescence. We hypothesize that pubertal maturation shifts the immune system towards a more pro-inflammatory phenotype. To explore this, we examined T-cell subtypes in individuals aged 8–30y. Pubertal maturation was assessed in 66 healthy individuals (median age: 17y, 42% male) using skeletal age and Tanner stage, and individuals were subsequently classified into one of four pubertal stages (pre-: n = 10, early-: n = 8, late-: n = 6, and post-puberty: n = 42). Multiple differentiation stages of CD4, CD8, and TCRγδ T-cells subpopulations were determined in peripheral blood samples using flow cytometry. Our results showed that absolute naïve CD4 T-cell and recent thymic emigrant CD4 T-cell counts generally decreased over the course of puberty (p = 0.004, p = 0.015), while absolute CD4 effector memory cell counts increased (p = 0.002). Notably, higher absolute naïve CD4 T-cell counts were observed during early-puberty compared to post-puberty which could not be explained by aging (p = 0.19). These findings indicate a developmental shift during puberty from a naïve to a more mature T-cell profile, supporting the idea that pubertal maturation affects the composition of the immune system.
AB - This study investigates how puberty affects T-cell subpopulations in healthy individuals, aiming to understand why kidney transplant outcomes are worse during adolescence. We hypothesize that pubertal maturation shifts the immune system towards a more pro-inflammatory phenotype. To explore this, we examined T-cell subtypes in individuals aged 8–30y. Pubertal maturation was assessed in 66 healthy individuals (median age: 17y, 42% male) using skeletal age and Tanner stage, and individuals were subsequently classified into one of four pubertal stages (pre-: n = 10, early-: n = 8, late-: n = 6, and post-puberty: n = 42). Multiple differentiation stages of CD4, CD8, and TCRγδ T-cells subpopulations were determined in peripheral blood samples using flow cytometry. Our results showed that absolute naïve CD4 T-cell and recent thymic emigrant CD4 T-cell counts generally decreased over the course of puberty (p = 0.004, p = 0.015), while absolute CD4 effector memory cell counts increased (p = 0.002). Notably, higher absolute naïve CD4 T-cell counts were observed during early-puberty compared to post-puberty which could not be explained by aging (p = 0.19). These findings indicate a developmental shift during puberty from a naïve to a more mature T-cell profile, supporting the idea that pubertal maturation affects the composition of the immune system.
UR - https://www.scopus.com/pages/publications/105024146357
U2 - 10.1038/s41598-025-27212-5
DO - 10.1038/s41598-025-27212-5
M3 - Article
C2 - 41361212
AN - SCOPUS:105024146357
SN - 2045-2322
VL - 15
JO - Scientific Reports
JF - Scientific Reports
IS - 1
M1 - 43345
ER -