Change of naïve and MP T cell populations in <i>Hoxb4</i> transgenic and wt mice with age.

<p>Scatter plots showing the percentage of (<b>A</b>) CD4 and (<b>B</b>) CD8 T cells that are naïve (CD44^lo/CD62L^hi), MP (CD44^hi) or are a subpopulation of MP T cells (CD44^hi/Ly6C^hi) for LN, Spl and BM derived from individual <i>Hoxb4</i> transgenic and wt (n = 6–8) age matched mice. Young mice are between 3–4 months and old mice are all older than 28 months. Naïve and MP populations change significantly with age, but not between <i>Hoxb4</i> and wt mice. *P<0.05, 2-tailed Student ttest. MP = memory phenotype, Wt = wild type, LN = lymph node, Spl = spleen and BM = bone marrow.</p

Total donor cells contribution to hematopoietic organs and the proportion of <i>Hoxb4</i> versus wild type cells.

<p>LN = Lymph node; BM = bone marrow, wt = wild type.</p

Competitive short-term homeostatic proliferations (7 days) of <i>Hoxb4</i> transgenic and wt CD4 MP T cells.

<p>(<b>A</b>) Scheme of the experimental approach. CD4 MP T cells are sorted from CellTrace™ Violet (CTV) labelled cells isolated from LN and Spl of <i>Hoxb4</i> (CD45.1/2) and congenic wt (CD45.1) mice. Cells of both genotypes are transplanted in a 1∶1 ratio in CD3ε^−/− (CD45.2) mice. (<b>B</b>) FACS profiles showing <i>Hoxb4</i> and wt fractions to donor derived CD4 MP T population (CD45.1) in LN (left panel). Representative FACS profiles for CD62L and CTV on <i>Hoxb4</i> and wt populations. Loss of CTV tracer indicates that most cells are dividing rapidly (right panels). (<b>C</b>) Average contribution (%) of <i>Hoxb4</i> and wt cells to donor derived MP T cells in LN, Spl and BM (n = 3). (<b>D</b>) Percentage of CD62L^hi MP T cells in <i>Hoxb4</i> and wt population found in lymphoid organs. *P<0.05; paired 2-tailed Student ttest. Wt = wild type, MP = memory phenotype, LN = lymph node, Spl = spleen and BM = bone marrow.</p

Percentage of T cell populations in hematopoietic organs of young adult mice.

<p>Note that no significant differences were observed between T cell populations of <i>Hoxb4</i> and wild type mice. 1-tailed Student ttest, comparing <i>Hoxb4</i> vs. wild type mice. LN = Lymph node; BM = bone marrow.</p

Medium-term competitive homeostatic proliferations (60 days) of <i>Hoxb4</i> transgenic and wt CD4 MP T cells.

<p>(<b>A</b>) FACS profile showing fractions of <i>Hoxb4</i> and wt cells to donor derived MP T population in lymph node (LN). (<b>B</b>) Stacked bar graphs indicating the average contributions of <i>Hoxb4</i> and wt cells in LN, Spl and BM measured in three independent experiments; n = 9. (<b>C</b>) FACS profiles for the expression of typical memory T cell surface markers on <i>Hoxb4</i> and wt MP T cells in the BM. (<b>D</b>) Average subpopulations of <i>Hoxb4</i> and wt MP T cells expressing the indicated surface markers in LN (upper panel), Spl (middle panel) and BM (lower panel). (<b>E</b>) Percentage of <i>Hoxb4</i> and wt MP T cells (gated on CD44^hi) positive for indicated cytokines (n = 3–6). *P<0.05, 2-tailed Student ttest. MP = memory phenotype, wt = wild type, LN = lymph node, Spl = spleen and BM = bone marrow, TNF = tumor necrosis factor; IL-2 = interleukine-2; IFN = interferon.</p

Long-term competitive homeostatic proliferations (180 days) of <i>Hoxb4</i> transgenic and wt CD4 cells.

<p>(<b>A</b>) Scheme of serial transplantations. 10×10⁶ cells of the LNs of primary hosts that received a transplant composed of equal doses of <i>Hoxb4</i> and wt MP T cells were serially transplanted into secondary and tertiary hosts with a 60 days interval. (<b>B</b>) Compilation of <i>Hoxb4</i> and wt fractions of donor derived cells in LN, Spl and BM of secondary (n = 6) and tertiary hosts (n = 4) from two independent experiments. (<b>C</b>) Bar graphs showing the average percentage of cells positive for CD62L and Ly6C within the <i>Hoxb4</i> or wt memory T populations. *P<0.05, 2-tailed Student ttest. Wt = wild type, MP = memory phenotype, LN = lymph node, Spl = spleen and BM = bone marrow.</p