Figure 2.
Figure 2. Proliferation of postthymic T cells in neonates and young adults. Lymphocytes were isolated from 39 cord blood samples from newborns of 26 to 41 weeks gestation and 15 healthy young adults. T cells in the cell cycle were identified by the expression of the Ki67 nuclear antigen by flow cytometric analysis of CD4+CD45RO– (naive) and CD8+CD45RO– T cells. Results in the adults (open boxes) and the full-term infants (shaded boxes) are shown as box plots. Frequencies of Ki67-expressing naive T cells were 10-fold higher in the infants than in the adults. The CD8+ T-cell subset included a higher proportion of Ki67+ cells in neonates (P < .001) and adults (P = .006) compared with CD4+ T cells (A). Frequencies of Ki67+ cells within the CD4+CD45RO– (open circles) and CD8+CD45RO– cells (filled circles) T-cell populations are given in correlation to the gestational ages of the neonates. Proliferation rates of cord blood CD4+ and CD8+ T cells were highest during the early phase of the third trimester and exponentially declined to maturity (R = 0.81 for CD4+ T cells; R = 0.79 for CD8+ T cells). The number of cycling cells remained elevated in full-term infants compared with adults. Frequencies of Ki67+CD45RO–CD8+ T cells were always higher than in their CD4+ counterparts (B). The ratio of CD4+CD45RO– and CD8+CD45RO– T cells was determined by flow cytometry in lymphocytes isolated from cord blood or peripheral blood of young adults. CD4+ T cells outnumbered CD8+ T cells in newborns and adults, but the ratios were significantly different (P < .001), with a relative reduction of CD4+ T cells over the first 2 decades of life (C).

Proliferation of postthymic T cells in neonates and young adults. Lymphocytes were isolated from 39 cord blood samples from newborns of 26 to 41 weeks gestation and 15 healthy young adults. T cells in the cell cycle were identified by the expression of the Ki67 nuclear antigen by flow cytometric analysis of CD4+CD45RO (naive) and CD8+CD45RO T cells. Results in the adults (open boxes) and the full-term infants (shaded boxes) are shown as box plots. Frequencies of Ki67-expressing naive T cells were 10-fold higher in the infants than in the adults. The CD8+ T-cell subset included a higher proportion of Ki67+ cells in neonates (P < .001) and adults (P = .006) compared with CD4+ T cells (A). Frequencies of Ki67+ cells within the CD4+CD45RO (open circles) and CD8+CD45RO cells (filled circles) T-cell populations are given in correlation to the gestational ages of the neonates. Proliferation rates of cord blood CD4+ and CD8+ T cells were highest during the early phase of the third trimester and exponentially declined to maturity (R = 0.81 for CD4+ T cells; R = 0.79 for CD8+ T cells). The number of cycling cells remained elevated in full-term infants compared with adults. Frequencies of Ki67+CD45ROCD8+ T cells were always higher than in their CD4+ counterparts (B). The ratio of CD4+CD45RO and CD8+CD45RO T cells was determined by flow cytometry in lymphocytes isolated from cord blood or peripheral blood of young adults. CD4+ T cells outnumbered CD8+ T cells in newborns and adults, but the ratios were significantly different (P < .001), with a relative reduction of CD4+ T cells over the first 2 decades of life (C).

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