Elevated telomerase activity is an important molecular signature for proliferating hematopoietic progenitors, lymphocytes and a variety of leukemic cells. The human telomerase activity is predominantly determined by the transcriptional control of the catalytic subunit telomerase reverse transcriptase (hTERT). For prospective identification of single living hematopoietic cells with telomerase activity, we have developed telomerase-reporting adenoviral vectors encoding destabilized enhanced green fluorescence protein with a half-life of 2 hours (d2EGFP) driven by the hTERT promoter. To shield the hTERT promoter from adenoviral backbone cis-acting DNA sequences, vectors encoding the chicken β-globin locus HS4 insulator sequence or bovine growth hormone transcription stop signal were also engineered. Moreover, these vectors were retargeted with the Ad35 fiber receptor specificity (Ad5F35 vectors) and utilize ubiquitously expressed CD46 as a cellular receptor. The Ad5F35 vectors allow efficient gene delivery into hematopoietic cells (
). The telomerase activity dependent d2EGFP expression was demonstrated in telomerase positive HeLa, A549 or negative fibroblasts and WI-38 cells by infection with the telomerase-reporting vectors at 2000 physical particles per cells. Successful gene delivery was achieved as about 90% of the cells were EGFP+ following infection with control Ad5F35-CMV-EGFP vector. Between 40 to 95% of the individual HeLa and A549 cells were d2EGFP+, and the percentages of the d2EGFP+ cells positively correlated with the extent of the telomerase activity as assessed in Trap assay. In contrast, a barely detectable fraction of the WI-38 cells and lower than 6% of the fibroblasts were expressing lower levels of d2EGFP. The vector carrying the HS4 insulator sequence generated the lowest background d2EGFP expression in fibroblasts and WI-38 cells (called cTERTdGFP vector). Therefore the cTERTdGFP vector was used for all the subsequent studies. Importantly, no measurable d2EGFP expression was observed in normal primary myeloid cells. The cTERTdGFP vector mediated d2EGFP expression in hematopoietic cells is dynamically regulated during cell proliferation and differentiation. Promyelocytic leukemic HL-60 cells were infected with the cTERTdGFP or the control Ad5F35-PGK-EGFP vector. Nearly 100% of the HL-60 cells were EGFP+ following the control vector infection, however, around 50% of the HL-60 cells were d2EGFP+ following cTERTdGFP vector infection. The d2EGFP expression was reduced 2-fold with lower d2EGFP intensity in retinoic acid induced differentiating HL-60 cells compared with non-treated HL-60 cells. HL-60 cells expanded from sorted d2EGFP+ or d2EGFP- cells generated identical frequencies of d2EGFP+ and d2EGFP- cells following re-infection with the cTERTdGFP vector. Cell cycle analysis assessing cellular DNA content in combination with Ki-67 antigen staining or BrdU pulsing showed that the sorted d2EGFP+ HL-60 cells contained significantly fewer cells in the G1, more cells in the S/G2/M phase of cell cycle compared with the d2EGFP- HL-60 cells. In conclusion, our studies can provide a powerful tool for isolation of living normal hematopoietic or leukemic cells with telomerase activity from heterogeneous cell populations.
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