Figure 2.
Figure 2. The hTERT reporter vector reported hTERT expression in hematopoietic progenitor cells via dGFP expression. (A) The hTERT reporter vector allowed barely detectable levels of dGFP expression in the telomerase-negative CB CD34–CD15/33+ cells. (B) In contrast, nearly all K562 cells became dGFP+ following the hTERT reporter vector transduction. (C) hTERT expression in K562 cells was assessed using real-time PCR. No significant differences in endogenous hTERT expression were observed between the hTERT reporter–transduced K562 cells compared with the control vector, or the mock-transduced cells at the indicated days after transduction. Data shown are the averages and standard deviations of hTERT mRNA levels from 3 independent experiments. (D) No significant differences in telomerase activity in the K562 cells were observed between the same 3 groups as analyzed in panel C. Data shown are the averages and standard deviations of telomerase activity. (E) A substantial fraction of the CD34+ cells expressed dGFP+, both under survival conditions (TPO alone; T) and proliferating conditions (TPO, SCF, and FL; TSF). (F) hTERT mRNA expression was assessed using real-time RT-PCR on the indicated cell populations as described in “Materials and methods.” Data shown are the averages and standard deviations of hTERT mRNA levels from 1250 cells from 5 independent experiments. (G) CD34–CD15/33+ and transduced CD34+ cells were assessed for telomerase activity using the TRAP assay. Data shown are the averages and standard deviations of telomerase activity of cell extracts from 1000 cells per assay (n = 3). HI indicates heat-inactivated sample; ND, not detectable. For significance tests, paired t tests were used.

The hTERT reporter vector reported hTERT expression in hematopoietic progenitor cells via dGFP expression. (A) The hTERT reporter vector allowed barely detectable levels of dGFP expression in the telomerase-negative CB CD34CD15/33+ cells. (B) In contrast, nearly all K562 cells became dGFP+ following the hTERT reporter vector transduction. (C) hTERT expression in K562 cells was assessed using real-time PCR. No significant differences in endogenous hTERT expression were observed between the hTERT reporter–transduced K562 cells compared with the control vector, or the mock-transduced cells at the indicated days after transduction. Data shown are the averages and standard deviations of hTERT mRNA levels from 3 independent experiments. (D) No significant differences in telomerase activity in the K562 cells were observed between the same 3 groups as analyzed in panel C. Data shown are the averages and standard deviations of telomerase activity. (E) A substantial fraction of the CD34+ cells expressed dGFP+, both under survival conditions (TPO alone; T) and proliferating conditions (TPO, SCF, and FL; TSF). (F) hTERT mRNA expression was assessed using real-time RT-PCR on the indicated cell populations as described in “Materials and methods.” Data shown are the averages and standard deviations of hTERT mRNA levels from 1250 cells from 5 independent experiments. (G) CD34CD15/33+ and transduced CD34+ cells were assessed for telomerase activity using the TRAP assay. Data shown are the averages and standard deviations of telomerase activity of cell extracts from 1000 cells per assay (n = 3). HI indicates heat-inactivated sample; ND, not detectable. For significance tests, paired t tests were used.

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