Abstract
The drug resistance gene MGMT(P140K) mutant has been extensively studied as a means to protect/select hematopoietic stem cells (HSC) following treatment with O6-alkylating agents such as temozolomide (TMZ) in tandem with the inhibitor of endogenous MGMT, O6-benzylguanine (6BG). Since the repair of O6-alkyl adducts by MGMT is stoichiometric, it has been suggested that higher levels of MGMT(P140K) will confer better protection upon HSC. To test this hypothesis, we developed a panel of SIN γ-retroviral vectors which express low to very high levels of MGMT(P140K) via different internal promoters. The MGMT activity in bone marrow cells (BMC) transduced with a viral LTR-derived promoter, SF(MGMT), was approximately 7-fold higher than in cells transduced with either cellular promoters PGK(MGMT) or EFS(MGMT) which were in turn >300-fold higher than in control transduced cells (CON). Mice transplanted with transduced BMC were treated with 6BG (30mg/kg) and TMZ (80mg/kg) on 3 consecutive days starting 7 weeks post-transplant. Surprisingly, we found that selection/protection was not evident in mice engrafted with SF(MGMT) transduced BMC, while robust long term in vivo selection/protection was observed in mice transduced with PGK(MGMT) and EFS(MGMT) BMC (Table 1). We next sought to explore the mechanism of these findings. 2 hours after 6BG/TMZ treatment, BMC harvested from SF-, PGK- and EFS(MGMT) groups showed equivalent repair of the O6-alkylguanine lesion. Thus, lower MGMT expression is adequate for O6-alkylguanine lesion repair, and the lack of selection by SF(MGMT) is not related to defective repair. In the absence of chemoselection, we found a modest but statistically significant decrease in the in vivo reconstitution of SF(MGMT)-transduced BMC compared to EFS- or PGK- transduced BMC in a competitive repopulation assay, while secondary recipients showed a more pronounced engraftment defect (18- and 32-fold lower engraftment of SF(MGMT) vs EFS(MGMT), (p<0.05) or PGK(MGMT), (p<0.01) respectively). To further examine this repopulation defect, 32D cells were transduced with SF(MGMT) and
demonstrated a growth defect in vitro (Table 2),
have >40% reduced colony forming ability (p<0.01) and
show >30% reduced 3H thymidine uptake (p<0.01), but do not demonstrate an elevated rate of apoptosis.
Chemoselection/Protection in vivo mean ± SEM
| . | % PBC pre-treatment . | % change PBC 15 weeks post-treatment . | WBC (×10e6/ml) pre-treatment . | WBC (×10e6/ml) 7 weeks post-treatment . |
|---|---|---|---|---|
| (**p<0.01 compared to non-treated) | ||||
| CON | 49.5±3.8 | −11.4±5.1 | 12.3±1.0 | 5.4±0.3** |
| SF-MGMT | 57.3±2.4 | −18.3±7.3 | 11.7±0.8 | 8.6±1.1** |
| EFS-MGMT | 39.3±3.2 | +18.8±4.4** | 12.9±1.1 | 13.5±1.3 |
| PGK-MGMT | 46.8±4.4 | +27.9±2.9** | 12.2±0.8 | 12.5±1.1 |
| . | % PBC pre-treatment . | % change PBC 15 weeks post-treatment . | WBC (×10e6/ml) pre-treatment . | WBC (×10e6/ml) 7 weeks post-treatment . |
|---|---|---|---|---|
| (**p<0.01 compared to non-treated) | ||||
| CON | 49.5±3.8 | −11.4±5.1 | 12.3±1.0 | 5.4±0.3** |
| SF-MGMT | 57.3±2.4 | −18.3±7.3 | 11.7±0.8 | 8.6±1.1** |
| EFS-MGMT | 39.3±3.2 | +18.8±4.4** | 12.9±1.1 | 13.5±1.3 |
| PGK-MGMT | 46.8±4.4 | +27.9±2.9** | 12.2±0.8 | 12.5±1.1 |
Growth of transduced 32D cells in the absence of treatment
| . | CON . | EFS-MGMT . | PGK-MGMT . | SF-MGMT . |
|---|---|---|---|---|
| (**p<0.01 for SF vs. CON, EFS and PGK) | ||||
| % GFP+ after 28d culture | 101.8±14.5 | 91.6±2.8 | 98.4±19.4 | 31.2±3.2** |
| . | CON . | EFS-MGMT . | PGK-MGMT . | SF-MGMT . |
|---|---|---|---|---|
| (**p<0.01 for SF vs. CON, EFS and PGK) | ||||
| % GFP+ after 28d culture | 101.8±14.5 | 91.6±2.8 | 98.4±19.4 | 31.2±3.2** |
Author notes
Disclosure: No relevant conflicts of interest to declare.
