Figure 3
Figure 3. Scl is required for HSC long-term competence. (A) Diagram of the serial competitive transplantation strategy. Scl+/− bone marrow cells (CD45.2+) were mixed with Scl+/+ competitor bone marrow cells (CD45.1+) at 1:1 or 1:5 ratio, and cells were transplanted in congenic irradiated hosts (CD45.1+) at 2 Scl+/− cell equivalents of 4 CRU or 40 CRU. (B-F) Data illustrate results for the 1:1 ratio at 4 CRU cell equivalents (B left panel) and 40 CRU cell equivalents (B-F). The RCA of Scl+/− cells was calculated and shown as the median ± SEM (*P ≤ .05). (B) Reconstitution by Scl+/− (CD45.2+) and Scl+/+ (CD45.2−) cells after the first transplantation at 4 or 40 CRU equivalents. Reconstitution at 4 and 8 months after transplantation was assessed by flow cytometric analysis of myeloid (CD11b, Gr1) and lymphoid (B220, CD3) cells in the peripheral blood. Data are representative of 2 independent experiments with groups of 5 or 7 mice each. Input Scl+/− cells before transplantation were 45.7% and 54.5%, respectively. (C-D) Analysis of populations enriched in stem cells and progenitors in the bone marrow. A representative analysis at 4 months of the KSL population is shown (C). The RCA of Scl+/− cells within the HSCs (Kit+Sca1+Lin−) population and myeloid (Kit+Sca1−Lin−IL7R−) as well as lymphoid (CLP) progenitor populations was assessed 4 and 8 months after transplantation (D) (**P ≤ .001). (E) Reconstitution by Scl+/− cells in the HSC population (KSL) and myeloid and as well as lymphoid progenitor populations (E left panel) or the mature myeloid and lymphoid populations (E right panel) 5 months after secondary transplantation. (F) Thymic reconstitution in primary and secondary transplantation within the CD4−CD8− (DN) and CD4+CD8+ (DP) populations is shown. Comparable results were observed with the CD4+ or CD8+ populations. All populations shown are Thy1+.

Scl is required for HSC long-term competence. (A) Diagram of the serial competitive transplantation strategy. Scl+/− bone marrow cells (CD45.2+) were mixed with Scl+/+ competitor bone marrow cells (CD45.1+) at 1:1 or 1:5 ratio, and cells were transplanted in congenic irradiated hosts (CD45.1+) at 2 Scl+/− cell equivalents of 4 CRU or 40 CRU. (B-F) Data illustrate results for the 1:1 ratio at 4 CRU cell equivalents (B left panel) and 40 CRU cell equivalents (B-F). The RCA of Scl+/− cells was calculated and shown as the median ± SEM (*P ≤ .05). (B) Reconstitution by Scl+/− (CD45.2+) and Scl+/+ (CD45.2) cells after the first transplantation at 4 or 40 CRU equivalents. Reconstitution at 4 and 8 months after transplantation was assessed by flow cytometric analysis of myeloid (CD11b, Gr1) and lymphoid (B220, CD3) cells in the peripheral blood. Data are representative of 2 independent experiments with groups of 5 or 7 mice each. Input Scl+/− cells before transplantation were 45.7% and 54.5%, respectively. (C-D) Analysis of populations enriched in stem cells and progenitors in the bone marrow. A representative analysis at 4 months of the KSL population is shown (C). The RCA of Scl+/− cells within the HSCs (Kit+Sca1+Lin) population and myeloid (Kit+Sca1LinIL7R) as well as lymphoid (CLP) progenitor populations was assessed 4 and 8 months after transplantation (D) (**P ≤ .001). (E) Reconstitution by Scl+/− cells in the HSC population (KSL) and myeloid and as well as lymphoid progenitor populations (E left panel) or the mature myeloid and lymphoid populations (E right panel) 5 months after secondary transplantation. (F) Thymic reconstitution in primary and secondary transplantation within the CD4CD8 (DN) and CD4+CD8+ (DP) populations is shown. Comparable results were observed with the CD4+ or CD8+ populations. All populations shown are Thy1+.

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