Figure 2
Figure 2. AE/N-RasG12D cells have enhanced self-renewal and improved in vivo engraftment partly as a result of Bcl-2 up-regulation. (A) Top: CD34+ umbilical cord blood cells were retrovirally transduced with vector control (CON) or AE and expanded for 2 weeks. Cells were then collected for blotting of indicated proteins. Bottom: Protein lysates from AE and AE/N-RasG12D cells were blotted for the indicated proteins. (B) Cells were analyzed by flow cytometry for expression of annexin V and uptake of 7-amino-actinomycin D (7-AAD). (C) Colony formation assay was performed as described in Figure 1F with indicated cell numbers. (D) Long-term culture-initiating cells assay comparing AE/pBabe and AE/Bcl-2 cells. (E) Cells were treated with ABT-737 compound at indicated concentrations for 72 hours in triplicate, followed by WST-1 cell proliferation assay. Optical density (OD) values obtained from each experiment were normalized to vehicle control (0μM group). Averages from multiple experiments are shown: n = 5 in parent AE and AE/N-Ras cytokine(−); n = 3 in AE/N-Ras cytokine(+). Bars represent SD. *P < .05. (F) AE cells were transduced with viruses containing an empty vector or the N-RasG12D gene, followed by injection of 5 × 105 cells into the left femur of NSG mice. Initial transduction was approximately 20% in both groups. Six weeks after injection, bone marrow aspiration was performed in the injected bone to determine engraftment; n = 6 in each group. (●) represents one mouse. White bars represent average. (G-H) AE/N-RasG12D cells were injected intrafemorally into NSS mice (G) or NSG mice (H). Total bone marrow cells from injected and noninjected bones as well as total spleen cells were obtained by crushing the organs, followed by immunostaining with antibodies against indicated surface markers and flow cytometric analysis.

AE/N-RasG12D cells have enhanced self-renewal and improved in vivo engraftment partly as a result of Bcl-2 up-regulation. (A) Top: CD34+ umbilical cord blood cells were retrovirally transduced with vector control (CON) or AE and expanded for 2 weeks. Cells were then collected for blotting of indicated proteins. Bottom: Protein lysates from AE and AE/N-RasG12D cells were blotted for the indicated proteins. (B) Cells were analyzed by flow cytometry for expression of annexin V and uptake of 7-amino-actinomycin D (7-AAD). (C) Colony formation assay was performed as described in Figure 1F with indicated cell numbers. (D) Long-term culture-initiating cells assay comparing AE/pBabe and AE/Bcl-2 cells. (E) Cells were treated with ABT-737 compound at indicated concentrations for 72 hours in triplicate, followed by WST-1 cell proliferation assay. Optical density (OD) values obtained from each experiment were normalized to vehicle control (0μM group). Averages from multiple experiments are shown: n = 5 in parent AE and AE/N-Ras cytokine(−); n = 3 in AE/N-Ras cytokine(+). Bars represent SD. *P < .05. (F) AE cells were transduced with viruses containing an empty vector or the N-RasG12D gene, followed by injection of 5 × 105 cells into the left femur of NSG mice. Initial transduction was approximately 20% in both groups. Six weeks after injection, bone marrow aspiration was performed in the injected bone to determine engraftment; n = 6 in each group. (●) represents one mouse. White bars represent average. (G-H) AE/N-RasG12D cells were injected intrafemorally into NSS mice (G) or NSG mice (H). Total bone marrow cells from injected and noninjected bones as well as total spleen cells were obtained by crushing the organs, followed by immunostaining with antibodies against indicated surface markers and flow cytometric analysis.

Close Modal

or Create an Account

Close Modal
Close Modal