Figure 1
Figure 1. Four aspects of human hematopoiesis are altered by Wnt3a. (A) Human Lin−CD34+CD38− BM cells (15 000 cells/well) were cocultured with Wnt-related gene (ie, Wnt3a, Wnt5a, or Dkk-1)–transduced OP9 cells for 3 weeks under B-lineage supporting conditions (ie, IL-7, SCF, and FL). Flow cytometry was used to evaluate differentiation and representative gating for CD14−CD19+ lymphocytes is shown in the top panels. The fold changes of recovered CD19+ cells numbers to control are given in the bottom panel. (B) CB CD34+ cells were cocultured for 17 days with Wnt3a-producing OP9 cells in the presence of IL-7, SCF, FL, and IL-15. The numbers of B cells (CD14− CD19+), natural killer cells (CD14−CD56+), and plasmacytoid dendritic cells (CD14−CD11c−CD19−CD56−CD123+) recovered were used to calculate yields per input cells. (C) Lin−CD34+CD38− HSCs or Lin−CD34+CD38+ HPCs were sorted from BM and cocultured on Wnt (ie, Wnt3a, Wnt5a, or Dkk-1)–producing OP9 cells for 48-72 hours under cytokine-free conditions to evaluate changes in phenotypes. The 2 bottom panels illustrate retention of c-Kit as reflected in mean fluorescent intensity normalized to control values. (D) The same culture conditions were used to investigate proliferative status, and repre-sentative staining for Ki-67 is shown. Averages ± SD are given in the right panel. (E) A 2-step culture system was used to assess de-differentiation of CB ELPs (Lin−CD34+CD38−CD7+) or CLPs (Lin−CD34+CD38+CD10+). After coculture on OP9-Wnt3a with IL7, SCF, and FL for 3 days, their potential to generate glycophorin-positive erythroid cells during an additional 2 weeks under stromal cell–free, erythropoiesis-supporting conditions (ie, EPO, SCF, and FL) was determined. Similar results were obtained in 3 independent experiments using ELPs and CLPs isolated from either CB or BM. Statistical significance was determined by unpaired 2-tailed t test analysis. *P < .05; **P < .01.

Four aspects of human hematopoiesis are altered by Wnt3a. (A) Human LinCD34+CD38 BM cells (15 000 cells/well) were cocultured with Wnt-related gene (ie, Wnt3a, Wnt5a, or Dkk-1)–transduced OP9 cells for 3 weeks under B-lineage supporting conditions (ie, IL-7, SCF, and FL). Flow cytometry was used to evaluate differentiation and representative gating for CD14CD19+ lymphocytes is shown in the top panels. The fold changes of recovered CD19+ cells numbers to control are given in the bottom panel. (B) CB CD34+ cells were cocultured for 17 days with Wnt3a-producing OP9 cells in the presence of IL-7, SCF, FL, and IL-15. The numbers of B cells (CD14 CD19+), natural killer cells (CD14CD56+), and plasmacytoid dendritic cells (CD14CD11cCD19CD56CD123+) recovered were used to calculate yields per input cells. (C) LinCD34+CD38 HSCs or LinCD34+CD38+ HPCs were sorted from BM and cocultured on Wnt (ie, Wnt3a, Wnt5a, or Dkk-1)–producing OP9 cells for 48-72 hours under cytokine-free conditions to evaluate changes in phenotypes. The 2 bottom panels illustrate retention of c-Kit as reflected in mean fluorescent intensity normalized to control values. (D) The same culture conditions were used to investigate proliferative status, and repre-sentative staining for Ki-67 is shown. Averages ± SD are given in the right panel. (E) A 2-step culture system was used to assess de-differentiation of CB ELPs (LinCD34+CD38CD7+) or CLPs (LinCD34+CD38+CD10+). After coculture on OP9-Wnt3a with IL7, SCF, and FL for 3 days, their potential to generate glycophorin-positive erythroid cells during an additional 2 weeks under stromal cell–free, erythropoiesis-supporting conditions (ie, EPO, SCF, and FL) was determined. Similar results were obtained in 3 independent experiments using ELPs and CLPs isolated from either CB or BM. Statistical significance was determined by unpaired 2-tailed t test analysis. *P < .05; **P < .01.

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