The purpose of this study was to evaluate the anti-tumor activity of sequenced administration of O6-benzylguanine (BG), streptozotocin (STZ), and 1,3-bis(2-chloroethyl)-1- nitrosourea (BCNU) in vitro and in vivo. We measured the recovery of O6-methylguanine DNA methyltransferase (MGMT) and BCNU cytotoxicity in the human glioma SF767 cell line, and anti-tumor activity against xenografts following exposure to BG, STZ or the combination of BG + STZ combined with BCNU. In SF767 cells, the combination of BG (10 microM) + STZ (0.05 mM) produced sustained inhibition of MGMT activity for at least 24 hr, and a greater potentiation of BCNU cytotoxicity than either agent alone. The combined treatment of BG + STZ increased BCNU-induced cell kill by 0.5 to 1.0 log over BG or STZ alone. The maximally tolerated doses of the combination of BG + STZ + BCNU administered to nude mice i.p. were the following: BG (80 mg/kg), STZ (100 mg/kg), and BCNU (15 mg/kg). Utilizing these doses of BG and STZ, the depletion and repletion profile of MGMT activity in SF767 xenografts was measured. STZ at 100 mg/kg did not affect xenograft MGMT activity. Subsequent to BG treatment, xenograft MGMT activity was inactivated completely for 12 hr, and the tumors gradually recovered approximately 40% of control activity by 24 hr. The combination of BG + STZ produced sustained inhibition of MGMT activity for 24 hr in the xenografts with complete recovery of MGMT activity by 48 hr. Administration of the combination of BG + BCNU to nude mice bearing SF767 tumor resulted in significant inhibition of tumor growth for 23 days. However, the addition of STZ to this combination provided no greater anti-tumor activity than that observed with BG + BCNU. The three-drug combination of BG, STZ, and BCNU produced no more than 2.4 to 13.0% weight loss with occasional lethal toxicity. Collectively, these data suggest that prolonged depletion of MGMT might be required for optimal reversal of BCNU resistance both in vitro and in vivo.
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