Efaproxiral (RSR13) plus oxygen breathing increases the therapeutic ratio of carboplatin in EMT6 mouse mammary tumors.

Carboplatin, a member of the platinum family of alkylating agents, is often used in combination with radiotherapy. Some studies, including a recent publication from our laboratory, have suggested that the cytotoxic effects of platinum compounds may be altered by changes in the post-treatment oxygenation. The study reported here assessed whether post-treatment changes in tumor oxygenation caused by oxygen breathing alone or in combination with efaproxiral (RSR13) altered the effects of carboplatin. Efaproxiral, which allosterically modifies hemoglobin-oxygen binding to increase tumor pO(2), has been shown to increase the effects of radiation in animal tumor models and is in a second, confirmatory phase III clinical trial as an adjuvant to radiotherapy. These studies with EMT6 tumors in BALB/c Rw mice used clonogenic assays to assess tumor cell survival and tumor growth studies to assess antineoplastic activity and treatment-related toxicity. Efaproxiral plus oxygen breathing for 5 hrs after carboplatin treatment significantly increased the antineoplastic effects of carboplatin. The increased antineoplastic effects of carboplatin produced by efaproxiral plus oxygen breathing occurred without a concomitant increase in host toxicity. These findings suggest that the increases in tumor oxygenation produced by Efaproxiral plus oxygen breathing increased the therapeutic ratio of carboplatin.

Effects of motexafin gadolinium on DNA damage and X-ray-induced DNA damage repair, as assessed by the Comet assay.

PURPOSE: To investigate the effects of motexafin gadolinium (MGd) on the levels of reactive oxygen species (ROS), glutathione (GSH), and DNA damage in EMT6 mouse mammary carcinoma cells. The ability of MGd to alter radiosensitivity and to inhibit DNA damage repair after X-ray irradiation was also evaluated. METHODS AND MATERIALS: Reactive oxygen species and GSH levels were assessed by 2,7-dichlorofluorescein fluorescence flow cytometry and the Tietze method, respectively. Cellular radiosensitivity was assessed by clonogenic assays. Deoxyribonucleic acid damage and DNA damage repair were assessed in plateau-phase EMT6 cells by the Comet assay and clonogenic assays. RESULTS: Cells treated with 100 mumol/L MGd plus equimolar ascorbic acid (AA) had significantly increased levels of ROS and a 58.9% +/- 3.4% decrease in GSH levels, relative to controls. Motexafin gadolinium plus AA treatment increased the hypoxic, but not the aerobic, radiosensitivity of EMT6 cells. There were increased levels of single-strand breaks in cells treated with 100 mumol/L MGd plus equimolar AA, as evidenced by changes in the alkaline tail moment (MGd + AA, 6 h: 14.7 +/- 1.8; control: 2.8 +/- 0.9). The level of single-strand breaks was dependent on the length of treatment. Motexafin gadolinium plus AA did not increase double-strand breaks. The repair of single-strand breaks at 2 h, but not at 4 h and 6 h, after irradiation was altered significantly in cells treated with MGd plus AA (MGd + AA, 2 h: 15.8 +/- 3.4; control: 5.8 +/- 0.6). Motexafin gadolinium did not alter the repair of double-strand breaks at any time after irradiation with 10 Gy. CONCLUSIONS: Motexafin gadolinium plus AA generated ROS, which in turn altered GSH homeostasis and induced DNA strand breaks. The MGd plus AA-mediated alteration of GSH levels increased the hypoxic, but not aerobic, radiosensitivity of EMT6 cells. Motexafin gadolinium altered the kinetics of single-strand break repair soon after irradiation but did not inhibit potentially lethal damage repair in EMT6 cells.

Preliminary studies of the effects of gadolinium texaphyrin on the growth and radiosensitivity of EMT6 cells in vitro.

PURPOSE: To investigate the effects of gadolinium texaphyrin (GdTx) on the growth and radiation response of cells in vitro, in a limited set of experiments designed to examine some areas of controversy concerning the effects of this compound. METHODS AND MATERIALS: Exponentially growing cultures of EMT6 mouse mammary tumor cells, grown in Dulbecco's Modified Eagle's Medium with 10% dialyzed fetal bovine serum, were treated with GdTx either prepared from powder or obtained as a solution similar to that used clinically, in either the presence or absence of equimolar ascorbic acid. Cell viability was measured using a clonogenic assay. RESULTS: Treatment with GdTx in the presence of ascorbic acid dramatically altered the growth, appearance, and behavior of the cells; treatment with GdTx in the absence of ascorbic acid had only minimal effects. The effects of the powdered drug and the solution were similar. GdTx used with equimolar ascorbic acid altered the radiation dose-response curves of cells irradiated under aerobic and hypoxic conditions; no significant changes were observed without ascorbic acid. CONCLUSIONS: The details of the protocols used in experiments examining the effects of GdTx have major effects on the outcomes. Our results suggest that differences in the protocols used by different groups in past studies with GdTx probably were important in producing the disparate results reported previously.

Effects of texaphyrins on the oxygenation of EMT6 mouse mammary tumors.

PURPOSE: To investigate the effects of texaphyrins on the oxygenation of EMT6 mouse mammary tumors in Balb/c Rw mice. Texaphyrins are synthetic, porphyrin-like molecules capable of stably coordinating lanthanide and nonlanthanide metals. Metallotexaphyrin compounds containing gadolinium (MGd), lutetium (MLu), europium (Eu-Tex), dysprosium (Dy-Tex), and manganese (Mn-Tex) were evaluated. METHODS: Tumor oxygenation was measured using an Eppendorf pO2 histograph when tumors, implanted intradermally in the rear dorsum, reached 150-200 mm3. Oxygen measurements were also made in the leg muscle of tumor-bearing mice, to determine whether changes in oxygenation occurred in nontumor tissue. RESULTS: Motexafin gadolinium (Xcytrin, MGd) seems to be an effective modulator of tumor oxygen tension. The mean of the median tumor pO2 6 hours after injection of MGd was 8.0 +/- 2.4 mm Hg. The control value was 1.5 +/- 0.4 mm Hg. The oxygen levels within EMT6 tumors were shifted significantly toward higher oxygen tensions 6-8 hours after i.v. injection of 40 micromol/kg MGd, thereby reducing the percentage of severely hypoxic readings (MGd, 6 hours: 44.6 +/- 4.3% <2.5 mm Hg; CONTROL: 69.4 +/- 3.0% <2.5 mm Hg). There was no significant change in the oxygenation of the leg muscle after MGd treatment. Eu-Tex and Mn-Tex increased the tumor oxygenation to a much lesser degree than MGd. MLu, Dy-Tex, and the vehicle (a 5% mannitol solution) did not modulate tumor oxygenation. CONCLUSIONS: MGd is an effective modulator of tumor oxygenation. The central metal composition of texaphyrin compounds is an important determinant of the effect of the texaphyrins on tumor oxygenation.

Effects of RSR13 and oxygen on the cytotoxicity of cisplatin and carboplatin to EMT6 mouse mammary tumor cells in vitro and in vivo.

PURPOSE: RSR13, 2-[4-[2-[(3,5-dimethylphenyl)amino]-2-oxoethyl]phenoxy]-2-methylpropanoic acid monosodium salt, allosterically modifies hemoglobin to increase tumor pO(2), increases the effect of radiation in animal tumor models, and is in phase III clinical trials as an adjuvant to radiotherapy. Cisplatin and carboplatin, two commonly used anticancer drugs have been used in combination with radiotherapy. Some studies have suggested that the cytotoxic effects of these drugs are altered in hypoxia. This study tested whether RSR13 plus oxygen breathing increased the cytotoxicity of cisplatin and carboplatin in vivo. METHODS: Solid EMT6 tumors in BALB/c Rw mice were treated with cisplatin (5-30 microg/g) or carboplatin (5-200 microg/g) along with 150 microg/g RSR13 in combination with oxygen breathing. Tumor cell survival was assayed using clonogenic assays. The effects of pre- and posttreatments with RSR13 and oxygen breathing on the cytotoxicity of cisplatin or carboplatin were also examined. To assess whether RSR13 had direct effects on the cytotoxicity of the drugs, exponentially growing monolayers of EMT6 mouse mammary carcinoma cells were treated with graded concentrations of cisplatin or carboplatin for 2 h along with simultaneous (2 h) RSR13 treatments or with prolonged (22 h) pre- or posttreatment incubations with 100 microM RSR13. RESULTS: Single or multiple treatments with 150 microg/g RSR13 plus oxygen breathing had no effect on the viability of cells in EMT6 tumors in mice. After treatment with cisplatin or carboplatin, the tumor cell survival tended to be lower in oxygen-breathing mice especially at higher doses of cisplatin. Treatment with RSR13 plus oxygen breathing beginning 15 min before administration of the alkylating agents did not alter the cytotoxicity of cisplatin or carboplatin from that seen with oxygen breathing alone. Pretreatment with RSR13 plus oxygen at 22 and 14 h prior to administration of either cisplatin or carboplatin did not alter the effect of either alkylating agent. Treatment with RSR13 plus oxygen breathing beginning 15 min before administration of the alkylating agents and lasting for 2 or 5 h did not alter the cytotoxicity of either drug from that seen with oxygen breathing alone. The cytotoxicity of cisplatin was not altered by treatment with oxygen alone or with RSR13 plus oxygen for 5 h after cisplatin injection. For carboplatin, treatment with oxygen alone and with RSR13 plus oxygen for 5 h after injection increased to similar extents the response of the tumor cells compared to that seen with assays at 2 h. Neither short simultaneous treatments, prolonged pretreatment incubations, nor prolonged posttreatment incubations with RSR13 altered the survival of EMT6 cells in cultures treated with cisplatin or carboplatin. CONCLUSIONS: These findings indicate that RSR13 in combination with oxygen breathing does not alter the cytotoxicity of cisplatin or carboplatin when used simultaneously, as a pretreatment or as a posttreatment in vitro or in vivo. Our in vivo findings indicate trends that support previous findings that cisplatin is more cytotoxic to well-oxygenated tumor cells than to hypoxic tumor cells, and that this effect can be improved by improving tumor oxygenation, but the differences seen in our studies did not achieve statistical significance.