Fig. 1.
Fig. 1. Retroviral vectors mediating different levels of HOXB4 expression. / (A) Schematic presentation of MSCV- and FMEV-based retroviral vectors used for HOXB4 expression in this study. The cotranslational separation activity of the 2A-sequence of foot-and-mouth disease virus (FMDV) enables concordant expression of GFP and hemagglutinin epitope–tagged (▪) HOXB4 at constant molar ratios. Pgk indicates phosphoglycerate kinase promotor; neo, neomycin resistance gene; wPRE, posttranscriptional regulatory element of the woodchuck hepatitis virus. (B) Quantification of ectopically expressed HOXB4 protein in K562 cells that were transduced with the retroviral vectors presented in panel A with the use of an MOI of less than 1. The vector MSCV-GFP31 was used as negative control (lane 2). Transduced cells were either selected with the use of G418-containing medium (lane 1) or sorted to greater than 90% GFP+ cells (lane 2-5). Crude extracts were separted by sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE), and HAHOXB4 proteins were detected immunologically by means of an anti-HA antibody. The relative levels of HOXB4 expression presented in panel A for each vector were determined by quantifying HAHOXB4-specific signal intensities by scanning densitometry as described in “Materials and methods.” (C) Detection of ectopic HOXB4 expression in human colony-forming cells. Crude extracts of human CFCs, which were derived from the bone marrow of NOD/SCID mice that had received transplants (experiment 2, Tables 1 and2) were treated as described in panel B. HAHOXB4 protein was detected in CFCs derived from mice that had been injected with human FMEV-HAHOXB4wPRE–transduced CD34+ cells (lane 3 and 5), but not in progenitors obtained from mice that either had received transplants of RFP-transduced CD34+ cells (lane 2) or had simultanously received injections of RFP and GFP control vector–transduced CD34+ cells (lane 4). Lane 1 (+): K562 extract corresponding to lane 5 in panel B as a positive control. Note that the GFP2AHAHOXB4 fusion protein (62 kDa; indicated by arrows) that was observed in transduced K562 cells is almost undectable in these primary human cells.

Retroviral vectors mediating different levels of HOXB4 expression.

(A) Schematic presentation of MSCV- and FMEV-based retroviral vectors used for HOXB4 expression in this study. The cotranslational separation activity of the 2A-sequence of foot-and-mouth disease virus (FMDV) enables concordant expression of GFP and hemagglutinin epitope–tagged (▪) HOXB4 at constant molar ratios. Pgk indicates phosphoglycerate kinase promotor; neo, neomycin resistance gene; wPRE, posttranscriptional regulatory element of the woodchuck hepatitis virus. (B) Quantification of ectopically expressed HOXB4 protein in K562 cells that were transduced with the retroviral vectors presented in panel A with the use of an MOI of less than 1. The vector MSCV-GFP31 was used as negative control (lane 2). Transduced cells were either selected with the use of G418-containing medium (lane 1) or sorted to greater than 90% GFP+ cells (lane 2-5). Crude extracts were separted by sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE), and HAHOXB4 proteins were detected immunologically by means of an anti-HA antibody. The relative levels of HOXB4 expression presented in panel A for each vector were determined by quantifying HAHOXB4-specific signal intensities by scanning densitometry as described in “Materials and methods.” (C) Detection of ectopic HOXB4 expression in human colony-forming cells. Crude extracts of human CFCs, which were derived from the bone marrow of NOD/SCID mice that had received transplants (experiment 2, Tables 1 and2) were treated as described in panel B. HAHOXB4 protein was detected in CFCs derived from mice that had been injected with human FMEV-HAHOXB4wPRE–transduced CD34+ cells (lane 3 and 5), but not in progenitors obtained from mice that either had received transplants of RFP-transduced CD34+ cells (lane 2) or had simultanously received injections of RFP and GFP control vector–transduced CD34+ cells (lane 4). Lane 1 (+): K562 extract corresponding to lane 5 in panel B as a positive control. Note that the GFP2AHAHOXB4 fusion protein (62 kDa; indicated by arrows) that was observed in transduced K562 cells is almost undectable in these primary human cells.

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