Attenuation of O(6)-methylguanine-DNA methyltransferase activity and mRNA levels by cisplatin and temozolomide in jurkat cells.

The DNA repair protein O(6)-methylguanine-DNA methyltransferase (MGMT) is important in cellular resistance to certain alkylating antitumor agents such as the methylating drug temozolomide (TMZ). To provide a more rational basis for clinical combinations with another commonly used drug, cisplatin, we assessed the modulation of MGMT protein and mRNA levels in the human leukemic cell line Jurkat after treatment with these agents. Cisplatin decreased MGMT activity in a time- and dose-dependent manner, with maximal suppression (50%) observed 24 h after treatment with 25 microM cisplatin. This was probably the result of decreased transcription of the MGMT gene, because there was an earlier nadir of MGMT mRNA levels after cisplatin treatment and neither cisplatin nor DNA reacted with cisplatin in vitro was able to inhibit MGMT activity in an in vitro assay. TMZ alone depleted MGMT activity in a time- and dose-dependent manner with almost complete loss of activity occurring immediately after treatment with 500 microM TMZ. Combinations of cisplatin (12.5 microM) and TMZ (250 microM) caused substantial and prolonged MGMT depletion with recovery to only 30% of pretreatment levels by 48 h. These results suggest that the clinical efficacy of TMZ and cisplatin may be improved by appropriate schedules of combinations of these agents.

Endogenous interleukin-12: relationship with angiogenic factors, hormone receptors and nodal status in human breast carcinoma.

Interleukin-12 (IL-12) is known to be a key cytokine for regulating immune response, but it is also known to provide some other biological function including inhibition of angiogenesis. We have determined using an enzymatic immunoassay the endogenous levels of IL-12 in 390 cytosols of primary breast cancers previously tested also for the angiogenic peptides, vascular endothelial growth factor (VEGF) and thymidine phosphorylase (TP). The concentration of IL-12 ranged from 0 to 7.6 ng/mg protein, and 124 (31.8%) out of 390 cancers showed a detectable dose (>0.1 ng/ml). There was no statistical association of IL-12 levels with tumor size and menopausal status. IL-12 levels tended to be higher in the tumors of node-positive patients as compared to those of node-negative ones (t-test, p=0.082). In addition, IL-12 levels were inversely associated with hormone receptor status, particularly progesterone receptor expression (p=0.0013). There was a significant inverse association between IL-12 and TP concentration (p=0.0007). The proportion of tumors with detectable levels of IL-12 and low levels of either VEGF or TP was higher among the patients with node-negative as compared to those with node-positive disease. On the contrary, the proportion of tumors with no detectable IL-12 and high levels of either VEGF or TP was higher in node-positive versus node-negative cancers. In conclusion, our study evaluated the balance between pro-angiogenic factors (TP and VEGF) and IL-12, as a detectable naturally occurring inhibitor of angiogenesis, in the same series of node-negative and node-positive breast cancers. Further studies are warranted to investigate the biological and clinical significance of the co-determination of pro and contra angiogenic factors in human breast carcinoma.

In vitro antitumor activity of 3'-desamino-3'(2-methoxy-4-morpholinyl) doxorubicin on human melanoma cells sensitive or resistant to triazene compounds.

A new methoxymorpholinyl derivative of Adriamycin (ADR), FCE 23762 (MRD), has recently been selected for phase I clinical trials for its reduced cardiotoxicity and for its cytotoxic activity against a broad spectrum of solid tumors and leukemias that are sensitive or resistant to ADR. The purpose of the present study was to compare the in vitro antitumor activity of MRD and ADR on human melanoma lines with different chemosensitivity to triazene compounds, among which dacarbazine remains a reference drug in the treatment of melanoma. Both MRD and ADR were tested in vitro on three melanoma lines, MI13443-MEL, SK-MEL-28, and M14, previously screened for their chemosensitivity to the triazene compound p-(3-methyl-1-triazeno) benzoic acid, potassium salt (MTBA). The three lines were also analyzed for P-170 expression, total glutathione (GSH) content, and GSH-related enzyme activity. All melanomas, whether sensitive or resistant to MTBA, were susceptible to anthracycline treatment. The cytotoxic activity of MRD was comparable with that of ADR, and no substantial difference was found in cell growth inhibition between the two drugs. When the relative chemosensitivity of the three lines was considered, SK-MEL-28 was found to be slightly less sensitive to MRD treatment than the other tumors. This finding seems to correlate with the higher GSH-peroxidase activity of this melanoma relative to that of the MI13443 and M14 lines. These results show a homogeneous response of melanoma lines to MRD treatment in vitro, suggesting that phase I clinical trials concerning this drug, which in vivo appears to be activated to a more cytotoxic metabolite, could be extended to metastatic melanomas, including those completely resistant to triazene compounds.

Triazene compounds induce apoptosis in O6-alkylguanine-DNA alkyltransferase deficient leukemia cell lines.

Previous studies demonstrated that triazene compounds (TZC) possess antitumor, antimetastatic and immunosuppressive activity, and induce novel antigenic properties in neoplastic cells. Moreover, TZC showed marked antitumor activity in patients with acute myelogenous leukemias (AML). In most cases leukemic blasts with low levels of the repair enzyme O6-alkyl-guanine-DNA alkyltransferase (OGAT) were highly susceptible to TZC. Therefore the cytotoxic effects of TZC against human leukemic cells and the influence of OGAT modulation were investigated. Five leukemia cell lines were treated with the in vitro active derivative of dacarbazine: 5-(3-methyl-1-triazeno) imidazole-4-carboxamide (MTIC), or with temozolomide (TZM), which is readily cleaved to form the linear triazene MTIC in aqueous solution. The results showed that treatment with TZC at concentrations ranging between 62.5 and 250 microM significantly inhibited cell growth of U-937 and K-562 leukemia cell lines, both with undetectable OGAT activity. Growth inhibition was accompanied by DNA fragmentation and reduction of cell volume characteristic of cell undergoing apoptosis. In contrast, Daudi, HL-60 and Jurkat leukemia cell lines, characterized by high levels of the repair enzyme, were resistant to concentrations of TZC up to 500 microM. Treatment of resistant lines with O6-benzylguanine (BG, a specific inhibitor of OGAT) rendered HL-60 and Daudi but not Jurkat cells sensitive to cytotoxic effects and apoptosis mediated by MTIC. The results presented suggest that: (1) apoptosis is involved in cytotoxic activity of TZC; (2) OGAT could have a role in preventing programmed cell death induced by TZC; and (3) treatment with BG could potentiate cytotoxic and apoptotic effects of TZC on leukemic cell lines when high level of OGAT activity is the main factor involved in resistance to TZC.