Deoxypyrimidine-induced inhibition of the cytokinetic effects of 1-β-d-arabinofuranosyluracil

Summary Ara-U-induced S-phase accumulation and the interaction between high concentrations of ara-U (HiCAU) and ara-C were investigated in L1210 leukemia cells in vitro. Treatment of exponentially growing L1210 murine leukemia cells with ara-U (200–1000 m) for 48 h caused a dose-dependent accumulation of cells in the S-phase. The extent of this ara-U-induced S-phase accumulation correlated with ara-U incorporation into DNA and with increases of up to 172% and 464% in the specific activities of deoxycytidine kinase and thymidine kinase, respectively, over control values. Metabolism of 1 m ara-C following the exposure of cells to ara-U (1mm) resulted in 4.5 pmol ara-C DNA/mg protein vs 2.1 pmol/mg protein in control cells. Although 48-h exposure of cells to 200 and 400 m ara-U is not cytotoxic, it enhances the cytotoxicity of ara-C (10–100 m) 4- to 10-fold. Ara-U-induced S-phase accumulation is inhibited by deoxypyrimidine nucleosides but not by pyrimidine or deoxypurine nucleosides. Some of the ara-U and ara-C concentrations used in this study are achievable in clinical practice, and ara-U/ara-C interactions may explain in part the unique therapeutic utility of high-dose ara-C.Abbreviations ara-C 1--d-arabinofuranosylcytosine - ara-U 1--d-arabinofuranosyluracil - ara-CTP 1--d-arabinofuranosylcytidine triphosphate - HiDAC high-dose ara-C - HiCAU high concentrations of ara-U - dCTP deoxycytidine triphosphate - HiDAU high-dose ara-U - FiTC Fluoroisothiocyanate - dUDP deoxyuridine diphosphate - dUTP deoxyuridine triphosphate - dTTP thymidine triphosphate - BrdUrd bromodeoxyuridine - dCyd kinase deoxycytidine kinase Supported in part by grant CH-35H from the American Cancer Society, by Public Health Service grant CA-12197 from the National Cancer Institute, National Institutes of Health, and by the Gaston Cancer Society     

Clinical pharmacology of N4-palmitoyl-1-β-d-arabinofuranosylcytosine in patients with hematologic malignancies

Summary The pharmacokinetics of oral N⁴-palmitoyl-1--d-arabinofuranosylcytosine (PLAC), a lipophilic and deaminase-resistant derivative of 1--d-arabinofuranosylcytosine (ara-C), were determined in patients with hematologic malignancies. The concentration of ara-C and 1--d-arabinofuranosyluracil (ara-U), metabolites of PLAC, were measured by radioimmunoassay and gas chromatography-mass spectrometry-mass fragmentography, respectively. The concentration of PLAC was determined by measuring ara-C, which was derived from PLAC by hydrolyzation. In six patients given an oral bolus of PLAC (300 mg/m²), the plasma-disappearance curve of PLAC corresponded to a one-compartment open model, including first-order absorption. The peak plasma level was 22.9±6.4 ng/ml, and the predicted time to reach the peak level was 2.5±1.0 h. The elimination half-life was 3.8±2.7 h. The plasma ara-C level increased slowly to 6.9 ng/ml during the 1st 2–3 h after administration and remained over 1.0 ng/ml for 12 h. Plasma ara-U was detectable for at least 24 h, with a peak concentration of 376 ng/ml at 6 h. Urinary PLAC excretion was below the limit of detection (5 ng/ml) in all cases. Prolonged urinary ara-C and ara-U excretion was detected, but the total recovery rate was low (6.7% in 24 h) and varied between patients. In spite of the lipophilic nature of the drug, the PLAC concentration in the cerebrospinal fluid, measured at 3 or 6 h, was below the limit of detection in all four patients with no meningeal involvement. This study showed low but persistent levels of PLAC in plasma and tissues, with a continuous release of small amounts of ara-C, which demonstrated antitumor activity in patients with hematologic malignancies.This study was supported in part by Grants-in-Aid from the Ministry of Health and Welfare (62-18 and 63-3), Japan     

Inhibition of fludarabine metabolism by arabinosylcytosine during therapy

Summary The active 5-triphosphate of arabinosyl-2-fluoroadenine (F-ara-ATP) increases the anabolism of arabinosylcytosine (ara-C), whereas ara-C 5-triphosphate inhibits the phosphorylation of arabinosyl-2-fluoroadenine (F-ara-A) in human leukemia cells in vitro. These interactions have a potential impact on drug scheduling. Clinical trials of relapsed leukemia in which fludarabine (F-ara-A 5-monophosphate) and ara-C were given in sequence provided the opportunity to evaluate the effects of ara-C infusion on two sequelae: the pharmacokinetics of F-ara-A in plasma and that of F-ara-ATP in leukemia cells. First, F-ara-A pharmacokinetics were altered by ara-C infusion. This was visualized as a transient increase in F-ara-A plasma levels during the ara-C infusion that was given 4 h after fludarabine. The perturbation in F-ara-A plasma levels was dependent on the dose of ara-C. Second, peak F-ara-ATP concentrations were lower in leukemia cells of patients who received ara-C in addition to fludarabine as compared with those who received fludarabine alone. The terminal half-life of F-ara-A in plasma and the half-life of intracellular F-ara-ATP were reduced after the ara-C infusion in a concentration-dependent manner. Studies using purified deoxycytidine kinase support the conclusion that the increase in plasma levels of F-ara-A is in part the result of an effective competition by ara-C for phosphorylation by this enzyme, leading to a perturbation of the pharmacokinetics of intracellular F-ara-ATP.Abbreviations ara-C 9--d-arabinofuranosylcytosine - ara-CTP 9--d-arabinofuranosylcytosine 5-triphosphate - AUC area under the concentration-time curve - AUC_p inerease in the AUC caused by perturbation - CLL chronic lymphocytic leukemia - dCyd kinase deoxycytidine kinase - F-ara-A 9--d-arabinofuranosyl-2-fluoroadenine 5 - fludarabine F-ara-AMP, 9--d-arabinofuranosyl-2-fluoroadenine 5-monophosphate - F-ara-ATP 9--d-arabinofuranosyl-2-fluoroadenine 5-triphosphate - t _1/2 half-life of elimination This work was supported in part by grants CA32839, CA46452, CA53311, and CA57629 from the National Cancer Institute, Department of Health and Human Services, by the German Research Association (DFG), and by a contract from Berlex Laboratories, Inc.     

A Randomized Phase II and Pharmacokinetic Study of Dacarbazine in Patients with Recurrent Glioma

We conducted a randomized phase II study to determine the efficacy of dacarbazine (DTIC) in recurrent gliomas. Patients were randomly assigned to receive either DTIC 750mg/m²IV day 1 every 28 days (Arm A) or DTIC 200mg/m²IV days 1–5 every 28 days (Arm B). Pharmacokinetics were studied in 6 patients on each arm using HPLC analysis. Thirty-nine patients (30 male, 9 female), ages 27–67 years (median 53) were entered on the study (20 on Arm A, 19 on Arm B). No objective responses were seen. Median time to progression was 3 months. Median survival was 8 months. Treatment was generally well tolerated. Major toxicities were grade 1–2 nausea (33%), lethargy (28%), diarrhea (15%), alopecia (15%), and grade 3 neutropenia (8%). Four patients on Arm A had mild self-limited episodes of intravascular hemolysis occurring immediately after drug infusion, the mechanism of which is unknown. Mean AUC for DTIC, HMMTIC (5-[3-hydroxymethyl-3-methyl-1-triazeno] imidazole-4-carboxamide), and MTIC (5-[3-methyl-1-triazeno] imidazole-4-carboxamide), in Arm A were 14.8, 0.17, and 1.15mMmin, respectively. Corresponding values for Arm B (on day 1 of 5) were 1.7, 0.06, and 0.29mMmin, respectively. The predicted HMMTIC and MTIC exposure over 5 days for Arm B, based on the day 1 data, is higher than with Arm A. We conclude that DTIC is well tolerated but does not have activity in patients with recurrent gliomas. The 5-day schedule appears less toxic, and pharmacokinetic studies show that it provides greater exposure to MTIC and HMMTIC compared to the one-day schedule.     

Phase II of doxorubicin/taxol in metastatic breast cancer

Purpose. To assess the response rate, survival, and toxicity of Taxol®(paclitaxel) as 1h infusion plus doxorubicin as firstline treatment for patients with metastatic breast cancer (MBC).Patients and methods. Seventysix patients with untreated MBC were recruited. All of them had measurable disease and were evaluable for toxicity. Fiftyfive percent of the patients had visceral involvement. The dose of doxorubicin was fixed at 50mg/m² as a short intravenous infusion, followed by 200mg/m² of Taxol as a 1h intravenous infusion. Doxorubicin was administered during the first seven cycles, continuing with Taxol only up to a maximum of ten cycles.Results. Neutropenia was the most important toxicity: 30% grade 3 and 18% grade 4. Only 2 patients showed a decrease in the left ventricular ejection fraction (LVEF) which caused discontinuing the treatment. No clinical congestive heart failure (CHF) was observed. Seventyfour patients were eligible for response evaluation: 10 (14%) achieved complete response (CR) and 46 (62%) achieved partial response (PR). The mean duration of response was 13.47± 1.35 months (95% confidence interval (CI): 10.82; 16.12) and the mean survival was 21.50± 1.42 months (95% CI: 18.72; 24.29).Conclusion. The overall response (OR) rate was 76%. No CHF was assessed and 2 patients stopped treatment due to LVEF decrease. Although doxorubicin 50mg/m² followed by Taxol 200mg/m² in 1h intravenous infusion presents a toxicity profile which demands a close followup, it represents a convenient outpatient schedule with similar activity rate compared to longer Taxol infusions.     

1-β-d-arabinofuranosylcytosine-, mitoxantrone-, and paclitaxel-induced apoptosis in HL-60 cells: improved method for detection of internucleosomal DNA fragmentation

We investigated the ability of different doses and durations of exposure to the chemotherapeutic drugs 1--d-arabinofuranosylcytosine (Ara-C), mitoxantrone (MTN), and paclitaxel (taxol, TXL) to induce internucleosomal DNA fragmentation and apoptosis in human acute myeloid leukemia (AML) HL-60 cells in suspension culture. At clinically achievable concentrations, all three drugs have been shown to induced apoptosis in HL-60 cells. An improved method was developed for the isolation of pure genomic DNA and the detection of drug-induced intergenomic DNA and the detection of drug-induced internucleosomal DNA fragmentation in <1.0 g of DNA sample by agarose gel electrophoresis. Morphologic evidence for apoptosis was determined by light microscopy following Wright staining, and cell viability was assessed by trypan blue dye exclusion. Internucleosomal DNA fragmentation was observed following exposure to 1.0 M Ara-C for 4 h, which increased with 10 and 50 M Ara-C. Incubation with 100 M Ara-C produced internucleosomal DNA fragmentation starting at 3 h, which increased with longer periods of exposure to Ara-C. Utilizing a schedule of 1-h exposure followed by 3-h suspension in drug-free medium, 0.25 M MTN was found to initiate DNA fragmentation, which increased with exposure to 1.0 and 5.0 M MTN. However, identical treatment with higher concentrations of MTN resulted in random DNA degradation. Alternatively, continuous exposure to 1.0 M MTN for 3 h was necessary to initiate internucleosomal DNA fragmentation. This increased with exposure intervals of up to 6 h. Exposure to TXL concentrations as low as 0.01 M for 24 h caused internucleosomal DNA fragmentation, which increased with dose escalation (0.05, 0.1, 0.5, and 1.0 M) of TXL. Although continuous exposure to 1.0 M TXL for a period as short as 8 h produced internucleosomal DNA fragmentation, this increased significantly with longer exposure intervals. In general there appears to be a threshold concentration and duration of exposure below which non of these three drugs activates endonucleolytic internucleosomal DNA fragmentation and apoptosis. This threshold is lower for the DNA-interactive drugs MTN and Ara-C but higher for the non-DNA-interactive drug TXL. Higher doses or prolonged treatments with the drugs produce random DNA fragmentation associated with necrotic cell death. These in vitro results may further improve our understanding of the antileukemic cytotoxic effects of these drugs, which may enable a more rational design of drug regimens for optimal treatment of AML.     

Glycogen‐rich carcinomas of the breast display unique characteristics with respect to proliferation and the frequency of oligonucleosomal fragments

We determined the proliferation rate and apoptotic activity of glycogenrich carcinomas of the breast as opposed to nonclear cell tumors by means of MIB1 immunohistochemistry and in situ detection of oligonucleosomal fragments (TUNEL reaction). The retrospective biopsy series included six invasive clear cell carcinomas of the glycogenrich type as well as 15 randomly selected cases of invasive ductal carcinoma without evidence of glycogen storage. Three patients in the clear cell group and seven patients in the control cohort developed lymphnode metastasis. The MIB1 labeling index of glycogenrich carcinomas averaged 9.05%, while that of the controls was 30.03%. Apoptotic nuclei were present in a mean of 1.26% of glycogenrich carcinoma cells. The control tumors exhibited an average apoptotic frequency of 5.85%. Tumor size, hormone receptor status, and presence or absence of lymph node involvement were found not to correlate with either proliferation or apoptosis. We conclude that glycogenrich breast carcinomas are characterized by a peculiar low proliferationlow apoptosis cell kinetic profile. The aggressive clinical behavior of these neoplasms may possibly be accounted for by an ineffective apoptotic elimination of otherwise slowly proliferating tumor cells.     

Cell cycle-specific metabolism of arabinosyl nucleosides in K562 human leukemia cells

Summary Exponentially growing K562 cells incubated with 1--d-arabinofuranosylcytosine (ara-C) accumulate ara-C triphosphate (ara-CTP) at a higher rate and to a greater concentration after pretreatment with 9--d-ara-binofuranosyl-2-fluoroadenine (F-ara-A) than do cells treated with ara-C alone. Potentiation of ara-C metabolism is due in part to an indirect effect of F-ara-A triphosphate (F-ara-ATP)-mediated reduction in deoxynucleotide pools and consequent activation of deoxycytidine kinase. Because the levels of deoxynucleotide pools and the activity of deoxycytidine kinase are cell cycle-specific, we investigated the effect of cell cycle phases on the accumulation of ara-CTP and the influence of F-ara-A pretreatment on such accumulation. Exponentially growing K562 cells were fractionated into G₁, S, and G₂+M phase-enriched subpopulations (each enriched by >60%) by centrifugal elutriation. The rate of ara-CTP accumulation was 22, 25, and 14 m/h and the rate of F-ara-ATP accumulation was 38, 47, and 33 m/h in the G₁, S, and G₂+M subpopulations, respectively. The rate of elimination of arabinosyl triphosphates was similar among the different phases of the cell cycle. After pretreatment with F-ara-A, the rate of ara-CTP accumulation in the G₁, S, and G₂+M phase-enriched subpopulations was 43, 37, and 26 m/h, indicating a 1.7-, 1.5-, and 1.9-fold increase, respectively. These results suggest that a combination of F-ara-A and ara-C may effectively potentiate ara-CTP accumulation in all phases of the cell cycle. This observation is consistent with the results of studies on the modulation of ara-C metabolism by F-ara-A in lymphocytes and leukemia blasts obtained from patients with chronic lymphocytic leukemia and acute myelogenous leukemia, respectively.Supported in part by grants CA 28596 and CA 16672 from the National Cancer Institute, Department of Health and Human Services, and by grant DHP-I from the American Cancer Society     

Prevention of rat mammary carcinoma utilizing leuprolide as an equivalent to oophorectomy

A clinical trial is currently under way to examine the effectiveness of leuprolide as a breast cancer chemopreventive agent and contraceptive. This trial, as well as similar proposed studies, is based on the assumption that leuprolide is as effective as surgical castration in preventing the onset of mammary tumors; however, this has not been well documented in the DMBA animal model. We directly compared leuprolide and oophorectomy in this model and examined a combined therapy of leuprolide/bromocriptine. Twenty-seven day old female Sprague-Dawley rats were randomly allocated into one of eight groups. All rats received a 20-mg dose of DMBA at the age of 55 days. Group 1 (n=10), no treatment; Group 2 (n=9), leuprolide (100g/kg/day) for eight weeks beginning four weeks prior to DMBA; Group 3 (n=10), oophorectomy four weeks prior to DMBA with replacement estrogen beginning four weeks following DMBA. Estrogen replacement was achieved with a 0.05-mg estradiol tablet releasing 0.833g/day over a 60-day period. Group 4 (n=10), leuprolide (100g/kg/day) initiated two weeks prior to DMBA and continuing for two weeks following DMBA; Group 5 (n=9), oophorectomy two weeks prior to DMBA with 0.05mg of estradiol in depot form, releasing 0.833g/day, beginning four weeks following DMBA and continuing until week 16 of the study; Group 6 (n=10), leuprolide (100g/kg/day) beginning two weeks prior to DMBA and continuing for the duration of the experiment; Group 7 (n=10), leuprolide (100g/kg/day) for eight weeks beginning two weeks prior to DMBA; Group 8 (n=9), leuprolide (100g/kg/day) and bromocriptine (83g/day) for eight weeks beginning two weeks prior to DMBA. At nineteen weeks (15 weeks post DMBA), animals were sacrificed and autopsies performed. One hundred percent of untreated animals developed tumors. No animals undergoing oophorectomy four weeks prior to DMBA or receiving leuprolide four weeks prior to and simultaneously with DMBA developed tumors. In animals pretreated two weeks prior to DMBA with leuprolide or oophorectomy, each group had one animal with tumor development. No tumors developed in the animals receiving ongoing injections of leuprolide. However, one tumor developed in those receiving leuprolide for the first eight weeks beginning two weeks prior to DMBA administration. One animal receiving both leuprolide and bromocriptine developed one tumor. We conclude that chemical oophorectomy (with leuprolide) is as effective as surgical oophorectomy in inhibiting DMBA induced carcinogenesis.     

In vivo effects in mice produced by a 3′-branched homologue of α-2′-deoxythioguanosine

Summary Studies with a 3-branched chain homolog (-3-BCTGdR) of 2-deoxythioguanosine (-TGdR) showed that it did not prolong the survival of mice bearing the Mecca lymphosarcoma. Host toxicity was quite profound and resembled that seen with 6-thioguanine (6-TG). Evidence was obtained that this nucleoside derivative was not appreciably converted to 6-TG in the mouse. Mice treated with toxic doses of 6-TG or -3-BCTGdR were found to have very similar pathological changes. The granulocytes were eliminated from the peripheral blood, bone marrow was acellular, and some more limited damage was seen in the intestinal crypts. Experiments with radiosulfur-labeled drugs demonstrated that -3-BCTGdR was incorporated into the DNA of mouse bone marrow, predominantly in the chain-terminating position, with the result that shorter chains of DNA accumulated. The new homolog, unlike -TGdR, was phosphorylated in bone marrow as well as in tumor, and incorporated well into the DNA both of bone marrow and of the neoplastic cells. In devising other homologs attention must be given to the specificity of the kinases, i.e., to whether phosphorylation is superior in tumor cells or in the growing normal cells.Abbreviations used are 6-TG 6-thioguanine - ,-TGdR ,-2-deoxythioguanosine - -3-BCTGdR 6-thioguanine--2,3-dideoxy-3-(hydroxymethyl)-d-erythro-pentofuranose - ³H-TdR Tritium-labeled (methyl) thymidine     

Pharmacokinetics of ara-C and ara-U in plasma and CSF after high-dose administration of cytosine arabinoside

Summary Cytosine arabinoside (ara-C) and uracil arabinoside (ara-U) levels were measured in the plasma, cerebrospinal fluid (CSF), and urine of 10 patients exhibiting primary central nervous system lymphoma who received 31 infusions of high-dose ara-C (3 g/m²) as part of their treatment regimen. Peak plasma and CSF ara-C levels were 10.8 and 1.5 g/ml, respectively. Ara-C was cleared more rapidly from plasma than from CSF. Ara-U appeared rapidly in both plasma and CSF, reaching a peak that was 10 times higher than the corresponding ara-C concentration (104 and 11.2 g/ml, respectively). Only 4%–6% of the dose was excreted unchanged in the urine, but 63%–73% of it appeared as ara-U within the first 24 h. The presence of leptomeningeal lymphoma did not affect the CSF level of ara-C or ara-U.Supported in part by the Don Monti Memorial Research Foundation     

The role of deoxycytidine-metabolizing enzymes in the cytotoxicity induced by 3′-amino-2′,3′-dideoxycytidine and cytosine arabinoside

Summary The cellular metabolism of 3-amino-2,3-dideoxycytidine (3-NH₂-dCyd), a cytotoxic agent previously reported to be a poor substrate for purified Cyd/dCyd deaminase (dCydD), was compared with that of cytosine arabinoside (ara-C) in cells that displayed dCydD activity (HeLa) and in cells that did not (L1210). Growth inhibition induced by 3-NH₂-dCyd was dependent on the levels of anabolic enzymes, particularly dCyd kinase (dCydK), whereas cytotoxicity induced by ara-C was dependent on the expression of both anabolic and catabolic enzyme activities. Competition kinetics using purified enzyme revealed that the binding affinity of ara-C to dCydK was 5-fold that of the amino analog. However, this binding advantage is apparently offset in cells that contain high levels of dCydD, since the K_i values for this enzyme were 0.2 and 23mm for ara-C and 3-NH₂-dCyd, respectively. This was reflected in the decrease in analog sensitivity observed between the two cell lines, whereby the concentrations of ara-C and 3-NH₂-dCyd required to inhibit growth by 50% were 200 and 7 times higher, respectively, in the dCydD-containing HeLa cells as compared with the dCydD-deficient L1210 cells. The metabolic stability and cytotoxicity of 3-NH₂-dCyd was independent of cell number. An unexpected finding was the extent to which the effectiveness of ara-C could be mitigated by the number of dCydD-containing cells. A completely cytotoxic concentration of ara-C was rendered nontoxic by a 10-fold increase in cell number. This observation was supported by an increase in I--d-arabinofuranosyluracil (ara-U) formation, a decrease in ara-C 5-triphosphate (ara-CTP) accumulation, and a rise in cell viability with increasing cell number. These findings indicate that unlike ara-C, the effectiveness of 3-NH₂-dCyd is independent of the level of deaminase, which suggests its possible utility in situations in which high levels of deaminase are manifest.Supported by grant CH-452 from the American Cancer Society     

Potentiation of etoposide-induced cytotoxicity and DNA damage in CCRF-CEM cells by pretreatment with non-cytotoxic concentrations of arabinosyl cytosine

Summary Pretreatment of the human lymphoblastoid cell line CCRF-CEM with 0.02 m arabinosyl cytosine (ara C) enhances both the cytotoxic and the DNA-damaging effects of etoposide. This concentration of ara C is itself non-cytotoxic and results in no detectable DNA damage as measured by alkaline elution. Ara C pretreatment results in the synchronisation of cells, a 24-h pretreatment resulting in the accumulation of cells in the early S phase. The sensitivity of cells to etoposide-induced cytotoxicity was increased 2.5 times and DNA damage was enhanced 1.66 times by this pretreatment. Maximal potentiation of etoposide-induced DNA damage (2.06-fold increase) was observed after 48 h continuous treatment with ara C, but no further enhancement of cytotoxicity occurred. Cell-cycle analysis demonstrated that 48 h ara C treatment resulted in the accumulation of cells in the late S/G₂M phase. Cells returned to a normal cell-cycle distribution within 24 h of the removal of ara C, and the potentiation of etoposide activity was then reduced to a 1.3- to 1.4-fold level. DNA damage induced by etoposide following ara C pretreatment was qualitatively identical to that produced by etoposide alone, suggesting a mechanism involving topoisomerase II. To investigate this possibility, we measured topoisomerase II protein levels by immunoblotting. Measurement of topoisomerase II levels in whole-cell lysates of ara C-pretreated cells showed a 3- to 5-fold increase in topoisomerase levels relative to total protein content. This suggests that elevated enzyme levels may be responsible for the increased sensitivity of ara C-pretreated cells to etoposide.Abbreviations ara-C cytosine -d-arabinofuranoside - m-AMSA 4-(9-acridinylamino)-methanesulfon-m-anisidide - DMSO dimethylsulphoxide - MTT 3-(4,5-dimethylthiazol-2yl)-2,5-diphenyltetrazolium bromide - SSBs single-strand breaks This work was supported by a grant from the North East Thames Regional Health Authority     

Mechanistic implications of alterations in HL-60 cell nascent DNA after exposure to 1-β-d-arabinofuranosylcytosine

Summary To improve our understanding of the mechanism of 1--d-arabinofuranosylcytosine (ara-C) incorporation into DNA, we investigated the physical properties (size, position of nucleoside incorporation) of small fragments of nascent DNA (nDNA) obtained by pH-step alkaline elution of intact HL-60 cells following their exposure to ara-C. In the pH-step alkaline elution procedure, the smallest fragments of nDNA elute at pH 11. Anion-exchange high-performance liquid chromatography (HPLC) of nDNA obtained by 1 h elution at pH 11.0 of lysed HL-60 cells revealed a preponderance of nDNA fragments ranging from 0.5 to 40 kb in control ([³H]-dThd-labeled) cells. Exposure of cells to ara-C (0.8–1 m) resulted in a loss of the preponderance of radiolabel in fragments of 0.5–40 kb along with redistribution of the radiolabel (from [³H]-dThd or [³H]-ara-C) into smaller nDNA fragments (predominantly <100 bases in length) as determined by HPLC. We used the ability of pH-step alkaline elution to provide these small nDNA fragments produced by ara-C to investigate the paradoxical behavior of ara-C as a chain terminator in cell-free DNA synthetic systems while being incorporated into an internucleotide position in intact cells. Following the digestion of purified nDNA with micrococcal nuclease and spleen phosphodiesterase II, the proportion of radiolabel in 3-dNMP (indicating an internucleotide position) or free nucleoside (indicating a chain terminus position) was determined by reverse-phase HPLC. In digests of prelabeled genomic DNA, as expected, <90% of the radiolabel from [¹⁴C]-dThd or [³H]-ara-C was found to exist in an internucleotide position (as determined by co-chromatography with authentic 3-dTMP or 3-ara-CMP). In contrast, digests of nDNA that eluted at pH 11.0 revealed a significantly higher proportion of radiolabel in the chain terminus position (29%–35%) when the nDNA was obtained from cells exposed to 1 m [³H]-ara-C as compared with cells exposed to [³H]-dThd or [³H]-dCyd alone (<10%). These data obtained from pH-step alkaline elution of intact cells suggest that by causing the inhibition of chain elongation while failing to inhibit the formation of new nDNA replication intermediates, ara-C exposure leads to the production of very small nDNA fragments. This relative chain-terminating effect of ara-C is most apparent in the small nDNA replication fragments that elute at pH 11.0. Since ara-C is accumulated predominantly in an internal position, even in the small nDNA fragments that elute at pH 11.0, ligation and gap-filling mechanisms in the intact cell must rapidly transform ara-C from a chain terminus to an internal position.Abbreviations ara-C 1--d-arabinofuranosylcytosine ara-CMP, 1--d-arabinofuranosylcytosine monophosphate - ara-CTP 1--d-arabinofuranosylcytosine 5-triphosphate - dNMP deoxynucleoside monophosphate - nDNA nascent DNA - dThd dCyd, 2-deoxycytosine - PBS phosphatebuffered saline (0.85% NaCl, 6.7mm potassium phosphate, pH 7.4); nuclease buffer, 0.5mm TRIS, 2mm CaCl₂, pH 8 - HPLC high-performance liquid chromatography - EDTA ethylenediaminetetraacetic acid Supported in part by grant RO-1-CA40188 from the NIH, National Cancer Institute. Presented in part at the 81st and 82nd Annual Meetings of the American Association for Cancer Research in Washington, D. C. (May 1990), and Houston, Texas (May 1991), respectively     

Tumor necrosis factor-alpha induces interleukin-6 production via extracellular-regulated kinase 1 activation in breast cancer cells

Interleukin-6 (IL-6) and interleukin-11 (IL-11) are frequently produced by breast cancer cells. These interleukins promote osteoclast formation and may mediate osteolysis at the site of breast cancer bone metastases. Transforming growth factor- (TGF-), tumor necrosis factor- (TNF-) and interleukin-1 (IL-1) up-regulate IL-6 and IL-11 production in a cytokine-dependent fashion in breast cancer cells, but very little is known about their intracellular signaling pathways in breast cancer cells. To study TGF-, TNF- and IL-1 regulation of IL-6 and IL-11 production in human MDA-MB-231 breast cancer cells, we established single cell clones stably expressing dominant negative (DN) forms of the mitogen-activated protein kinases p38 (p38/AF) or ERK1 (ERK1K71R). We show here, that while basal, TGF- and IL-1 induced IL-6 production was similar in parental cells and in pcDNA3 control, ERK1K71R and p38/AF clones, TNF- induced IL-6 production was blunted in the ERK1K71R clones. TGF- and IL-1, but not TNF-, induced IL-11 production in parental MDA-MB-231 cells. Similar findings were detected in clones stably expressing p38/AF and ERK1K71R, which did not change basal IL-11 production either. In conclusion, TNF- induced IL-6 production is mediated via ERK1 activation in MDA-MB-231 cells. These observations may be helpful in designing new anti-osteolytic therapies.     

Ultrastructural Changes of the Vascular Endothelium after Intra-arterial Administration of Tumor Necrosis Factor-alpha (TNFα) in Rat Gliomas

The ensuing ultrastructural changes in tumor vascular endothelial cells following intra-arterial administration of tumor necrosis factor- (TNF) were studied in an experimental rat glioma model. C6 glioma cells were implanted in Wistar rats and then after 14 days, 5×10³U of human natural-type TNF (1.7×10⁵U/m²) was administered through the carotid artery. The animals were sacrificed at 3 or 24h after TNF treatment. A detailed examination with transmission electron microscope revealed swelling of the tumor vascular endothelial cell nuclei and mitochondria with matrix densities at 3h. At 24h, these cells demonstrated the presence of high amplitude mitochondrial swelling or the violent blebbing characteristic of damaged mitochondria; the cytoplasm was swollen enormously and there were dissolution of cytoplasmic organelles and rupture of the plasma membrane. The observed findings were typical of cell necrosis and confirms yet another mechanism by which TNF exerts its anti-tumor effects, that is, necrotizing effects on tumor vascular endothelium. The information appears to be important in the context of clinical application of intra-arterial TNF in the treatment of malignant gliomas.     

Involvement of nuclear steroid/thyroid/retinoid receptors and of protein kinases in the regulation of growth and of c‐erbB and retinoic acid receptor expression in MCF‐7 breast cancer cells

Nuclear steroid/thyroid/retinoid receptors and cerbB membrane receptor tyrosine kinases control epithelial growth and differentiation. Retinoid receptors can dimerize with the vitamin D receptor, the glucocorticoid receptor or the thyroid receptor. Furthermore, multiple cerbB receptor dimers have been identified. It has been shown that some of these receptor pathways communicate with each other via crossconnected regulatory networks. Molecular interactions between retinoid receptors or estrogen receptors (ER) and cerbB2, and between ER and retinoic acid receptor(RAR) have been reported. Here, we demonstrate the effects of steroids/thyroids/retinoids and of activators of protein kinase A (forskolin, Forsk) and C (12Otetradecanoylphorbol13acetate, TPA), on growth and expression of cerbB and RARs in MCF7 breast cancer cells, which contain high levels of RAR and , and which express significant amounts of cerbB2 and 3. All transretinoic acid (tRA), the antiestrogen ICI 182 780 (ICI), Forsk and TPA reduced, whereas triiodothyronine and 17estradiol (E₂) stimulated cell growth. Flow cytometry revealed that tRA and E₂ reduced cerbB2 and 3, whereas tamoxifen, Forsk and TPA upregulatedcerbB2. cerbB3 was coregulated with cerbB2. Northern analysis demonstrated that RAR was downregulated by dexamethasone, ICI, and TPA, whereas vitamin D₃ and E₂ upregulated RAR. RAR expression was less responsive to such treatment, being reduced only by ICI and Forsk. These data indicate that nuclear receptor and protein kinase signaling communicate with each other and control the expression of RARs and cerbB receptors. Efficient growth control requires the coordinated interplay of both receptor systems.     

Effect of Dose and Infusion Time on the Delivery of p-boronophenylalanine for Neutron Capture Therapy

Clinical trials of boron neutron capture therapy (BNCT) for glioblastoma multiforme are currently in progress using p-boronophenylalanine (BPA) as the 10B delivery agent. Enhancement of tumor boron uptake and/or the tumor-to-blood (T:B) boron concentration ratio would have the potential of significantly improving the therapeutic gain of BNCT. The effects of total dose, infusion time, and route of administration of BPA on tumor and blood boron concentrations were studied in rats bearing the 9L gliosarcoma. Increasing the total dose of BPA from 250 to 1000mg/kg, administered intravenously over a 2-h infusion period, resulted in an increase in tumor boron concentration from 30 to 70µg 10B/g, with a constant T:B boron concentration ratio of about 3.7:1. Similarly, extension of the infusion time from 2 to 6h, at a constant dose-rate of 125mg BPA/kg/h, resulted in an increase in tumor boron concentration from 30 to 80µg 10B/g, while, again, maintaining a constant T:B ratio of about 3.7:1. In contrast, intracarotid infusion of BPA for 1h at a dose rate of 125mg BPA/kg resulted in an increase in the tumor boron concentration from 26 to 38µg 10B/g with a corresponding increase in the T:B ratio from 3.5:1 to 5.0:1. The effects of these results on the therapeutic gain potentially achievable with BNCT are discussed.     

Genetic polymorphisms of platelet adhesive molecules: association with breast cancer risk and clinical presentation

The main platelet adhesive receptors integrin 21, integrin IIb3 and glycoprotein (GP) Ib are also expressed in breast carcinoma cells. They play a key role in tumor cell-induced platelet aggregation and in adhesive interactions necessary for tumoral invasion and metastasis. Several polymorphisms affecting these molecules, two in integrin 2 (C807T and G1648A), one in integrin 3 (T1565C) and one in GP Ib (VNTR), influencing their levels, structure, and possibly their function, have been previously described and associated with cardiovascular diseases. In this study, we investigated the association of these polymorphisms with breast cancer risk or clinical presentation. We studied 101 patients with invasive breast cancer. The main prognostic variables were recorded, and genomic PCR analysis of these polymorphisms was performed. A group of 101 control subjects matched on age and sex was studied and compared with patients. No association was found between VNTR (GP Ib) polymorphism and breast cancer risk or presentation. Genotype and allele frequencies of C807T and G1648A polymorphisms of integrin 2 were not statistically different in breast cancer patients and controls, although we found an association between the 1648G/G genotype and higher disease stages (III and IV) (p = 0.02). Breast cancer risk was higher in carriers of 3 integrin T/T genotype (OR = 2.08, 95% CI = 1.04–4.16, p = 0.04). Furthermore, genotype 1565T/T was also associated with axillary nodal metastasis (p = 0.017) and with tumoral diameter greater than 2 cm (p = 0.02). Although confirmatory studies are needed, our results suggest that polymorphic genetic variation of integrins expressed in platelets and epithelial breast cells could modify the risk and the biological aggressiveness of breast carcinomas.     

Tissue inhibitor of metalloprotease (TIMP)‐1 and proliferative behaviour of clonal breast cancer cells

In the present paper, we have examined whether human tissue inhibitor of metalloprotease1 (hTIMP1) is able to exert a growth factorlike effect on two clonal cell lines (BC3A and BC61), isolated from a parental line of human breast carcinoma cells (8701BC), and endowed with different growth and invasive behaviour in vitro and in nude mouse. The data obtained indicate that only the more tumorigenic clonal cell line (BC61) is responsive to hTIMP1 treatment by increasing its proliferative rate in a dosedependent manner. It was also found that BC61 cells selectively express a transmembrane protein of about 80kDa able to bind hTIMP1 in vitro and in vivo with high affinity (K_d of 0.07 ± 0.004 nM), and that treatment of BC61 cells with a proliferationpromoting concentration of hTIMP1 is able to stimulate tyrosinetargeted phosphorylation. The cumulative results obtained strongly support the hypothesis that hTIMP1, classically regarded as a collagenase inhibitor, may be a crucial element of the extracellular signalling network during breast cancer development by controlling cell growth phenotype in autocrine and paracrine manner, and that intratumoural heterogeneity for the biological response to TIMP1 may exist within the composite cell population of the primary tumour site.