Figure 2.
Figure 2. FLT-1 function in ALL cells. (A) Proliferation assays to test the mitogenic effects of PlGF stimulation of the 4 ALL cell lines used in this study. Results show cells that were stimulated for 24 hours with PlGF (10 ng/mL) in the presence of heparin and counted in triplicate experiments (using the trypan blue exclusion test). *PlGF induces a significant increase in cell proliferation in the 697 cell line (P < .05). (B) Transwell migration assay to test the chemotactic effects of PlGF on the 4 ALL cell lines used in this study. Results show the ratio of PlGF-induced cell migration/control cells (calculated from the mean cell number in 6 high power fields; HPF, × 400 magnification) after 4 hours of PlGF (10 ng/mL) stimulation. *697 migrated significantly more in the presence of PlGF (3 independent experiments; P < .01 for 697 cells). (C) RS4;11 cells were transfected with full-length FLT-1 to determine the result of FLT-1 overexpression in vitro and in vivo. FLT-1 mRNA expression, as determined by real-time PCR. Note the increased expression of FLT-1 mRNA in FLT-1-transfected cells (RS4;11 FLT-1T). (D) Transwell migration assay was performed with nontransfected RS4;11 and those transfected with full-length FLT-1, in the presence of VEGF (30 ng/mL) for 4 hours. Results are shown as the mean cell number in 6 HPF (× 400 magnification) and demonstrate that RS4;11 FLT-1T cells migrate significantly more in the presence of VEGF than their untransfected counterparts (*3 independent experiments; P < .05). (E) Migration assay to demonstrate the transfected full-length FLT-1 modulates cell migration. Results show RS4;11 FLT-1-transfected cells exposed to VEGF (30 ng/mL) for 4 hours, alone or in the presence of the FLT-1-neutralizing Ab, 6.12 (1 μg/mL). *VEGF-induced RS4;11 FLT-1T migration is significantly reduced in the presence of the 6.12 Ab (3 independent experiments, P < .05), demonstrating the transfected receptor is functional and modulates cell migration. Error bars depict the standard error of the mean.

FLT-1 function in ALL cells. (A) Proliferation assays to test the mitogenic effects of PlGF stimulation of the 4 ALL cell lines used in this study. Results show cells that were stimulated for 24 hours with PlGF (10 ng/mL) in the presence of heparin and counted in triplicate experiments (using the trypan blue exclusion test). *PlGF induces a significant increase in cell proliferation in the 697 cell line (P < .05). (B) Transwell migration assay to test the chemotactic effects of PlGF on the 4 ALL cell lines used in this study. Results show the ratio of PlGF-induced cell migration/control cells (calculated from the mean cell number in 6 high power fields; HPF, × 400 magnification) after 4 hours of PlGF (10 ng/mL) stimulation. *697 migrated significantly more in the presence of PlGF (3 independent experiments; P < .01 for 697 cells). (C) RS4;11 cells were transfected with full-length FLT-1 to determine the result of FLT-1 overexpression in vitro and in vivo. FLT-1 mRNA expression, as determined by real-time PCR. Note the increased expression of FLT-1 mRNA in FLT-1-transfected cells (RS4;11 FLT-1T). (D) Transwell migration assay was performed with nontransfected RS4;11 and those transfected with full-length FLT-1, in the presence of VEGF (30 ng/mL) for 4 hours. Results are shown as the mean cell number in 6 HPF (× 400 magnification) and demonstrate that RS4;11 FLT-1T cells migrate significantly more in the presence of VEGF than their untransfected counterparts (*3 independent experiments; P < .05). (E) Migration assay to demonstrate the transfected full-length FLT-1 modulates cell migration. Results show RS4;11 FLT-1-transfected cells exposed to VEGF (30 ng/mL) for 4 hours, alone or in the presence of the FLT-1-neutralizing Ab, 6.12 (1 μg/mL). *VEGF-induced RS4;11 FLT-1T migration is significantly reduced in the presence of the 6.12 Ab (3 independent experiments, P < .05), demonstrating the transfected receptor is functional and modulates cell migration. Error bars depict the standard error of the mean.

Close Modal
This Feature Is Available To Subscribers Only

or Create an Account

Close Modal
Close Modal