Metabolism of 6-mercaptopurine in the erythrocytes, liver, and kidney of rats during multiple-dose regimens

Purpose: To describe the metabolism of 6-mercaptopurine (6-MP) in erythrocytes and tissues of rats after repeated administration of 6-MP at two dose levels and to provide evidence that in vivo modulation of 6-MP anabolism can be obtained by simultaneous treatment with ribavirin or hydroxyurea, two inhibitors of enzymes involved in the bioactivation of 6-MP to the active 6-thioguanine nucleotides (6-TGN). Methods: Rats were treated i.p. with 6-MP at 12.5 and 25 mg/kg daily for 12 days and erythrocyte, liver, and kidney levels of 6-mercaptopurine nucleotides (6-MPN) and 6-TGN were investigated during the accumulation phase and for 50 days after the end of treatment. In combination studies, ribavirin at 75 and 100 mg/kg per day (for 6-MP, 25 and 12.5 mg/kg per day) or hydroxyurea at 200 mg/kg per day were given i.p. for 12 days. The measurements of thionucleotide levels in rat samples were performed by high-pressure liquid chromatography (HPLC). Results: The maximal concentration (C_max) and the area under the concentration versus time curve (AUC) of 6-MPN and 6-TGN in erythrocytes and tissues increased significantly after the administration of 6-MP at 25 mg/kg per day as compared with 12.5 mg/kg per day. In particular, the C_max and AUC of 6-TGN in erythrocytes of rats treated with 6-MP at 25 mg/kg per day were approximately 5-fold higher than the 6-TGN values observed following treatment at 12.5 mg/kg per day. Moreover, 6-TGN levels in erythrocytes were significantly higher than those of 6-MPN (910.9 ± 53.1 and 286.8 ± 23.4 pmol/8 × 10⁸ cells for 6-TGN and 6-MPN, respectively, P < 0.05) after treatment with 6-MP at 25 mg/kg per day. The administration of ribavirin, an inhibitor of inosine monophosphate dehydrogenase, in association with 6-MP increased the amount of 6-MPN detected in erythrocytes and tissues while reducing 6-TGN levels in samples. The production and accumulation of 6-MPN and 6-TGN were increased in erythrocytes and tissues by hydroxyurea, an inhibitor of ribonucleotide reductase. Finally, a significant correlation between thionucleotide concentrations and erythrocyte counts was observed. Conclusion: The overall results demonstrate that 6-MP is actively metabolized in rats and that its biotransformation can be modulated by agents acting on enzymes of the purine metabolism, resulting in significant changes in erythrocyte and tissue levels of 6-MPN and 6-TGN. These findings provide evidence that the rat is a suitable model for investigation of the metabolism of 6-MP and its possible pharmacologic modulation. Received: 17 December 1997 / Accepted: 29 June 1998     

Pharmacokinetics of dolasetron with coadministration of cimetidine or rifampin in healthy subjects

Purpose: Dolasetron is a selective 5-HT₃ receptor antagonist. The purpose of this study was to determine the effect of cimetidine and rifampin on the steady-state pharmacokinetics of orally administered dolasetron and its active reduced metabolite, hydrodolasetron. Methods: A group of 18 healthy men (22 to 44 years old) were randomized to receive each of the following three treatments in a three-period crossover design: 200 mg dolasetron daily (treatment A); 200 mg dolasetron daily plus 300 mg cimetidine four times daily (treatment B); or 200 mg dolasetron daily plus 600 mg rifampin daily (treatment C). Each study period was separated by a 14-day washout period. Serial blood samples were collected before the first dose (baseline) on day 1 and at frequent intervals up to 48 h after the morning dose on day 7 for quantification of dolasetron and its metabolites, hydrodolasetron (both isomers), 5′OH hydrodolasetron, and 6′OH hydrodolasetron. Serial urine samples were also collected at baseline and during the periods 0–24 and 24–48 h following the morning dose on day 7, and analyzed for dolasetron and its metabolites. Results: Plasma and urine dolasetron concentrations were below quantifiable concentrations for all three treatments. Mean steady-state area under the plasma concentration-time curve (AUC_ss(0–24)) of hydrodolasetron increased by 24%, mean apparent clearance (CL_app,po) decreased by 19%, and maximum plasma hydrodolasetron concentration (C_max,ss) increased by 15% when dolasetron was coadministered with cimetidine. When dolasetron was given with rifampin, mean hydrodolasetron AUC_ss(0–24) decreased by 28%, CL_app,po increased by 39%, and hydrodolasetron C_max,ss decreased by 17%. Small differences were found in mean t_max (0.7 to 0.8 h), CL_r (2.0 to 2.6 ml/min per kg), and t_1/2 (7.4 to 8.8 h) for hydrodolasetron between treatment periods. Approximately 20% and 2% of the dolasetron dose were excreted in urine as the R(+) isomer and S(−) isomer of hydrodolasetron, respectively, across all three treatments. Dolasetron mesylate was well tolerated in this study during all three treatment periods, with the highest incidence of adverse events reported during the control period when dolasetron mesylate was given alone. Conclusion: Based on the small changes in the pharmacokinetic parameters of dolasetron and its active metabolites, as well as the favorable safety results, no dosage adjustments for dolasetron mesylate are recommended with concomitant administration of cimetidine or rifampin. Received: 10 February 1998 / Accepted: 1 June 1998     

Effect of filgrastim on the pharmacokinetics of MX2 hydrochloride in patients with advanced malignant disease

Purpose: To investigate the effect of granulocyte colony-stimulating factor (G-CSF) on the pharmacokinetics and pharmacodynamics of the new morpholino anthracycline drug MX2. Methods: A total of 25 patients with advanced malignant disease participated in a dose-escalation study in the first cycle of treatment given i.v. at doses of 50–80 mg/m² (74–152 mg) with concomitant filgrastim (G-CSF, 5 μg/kg) given daily beginning at 24 h after the dose of MX2. Results: The mean fast distribution half-life (1.5 ± 1.0 min) and the mean plasma clearance (2.18 ± 0.95 l/min) were significantly lower than the respective mean values found in a previous study in which 27 patients had received MX2 (16.8–107.5 mg) alone (3.3 ± 2.2 min and 2.98 ± 1.68 l/min, respectively; P < 0.05). There was no correlation between plasma clearance and the delivered dose for the combined MX2-alone and MX2-filgrastim groups, indicating that the lower clearance observed in the G-CSF group was probably not due to the higher dose. Elimination half-lives of the metabolites M1 and M4 were significantly greater in the filgrastim group (19.8 ± 14.7 and 11.8 ± 5.0 h for M1 and 14.8 ± 4.1 and 12.3 ± 6.3 h for M2, respectively). Unlike the MX2-alone group, there was no relationship in the MX2- filgrastim group between the relative nadir neutrophil count and the dose or between the duration of grade IV neutropenia and the dose of MX2. Conclusions: This study shows that filgrastim decreased the plasma clearance of MX2 by approximately 25%, possibly by inhibition of metabolism. Received: 1 June 1997 / Accepted: 17 September 1997     

Effect of single and multiple administration of an O 6-benzylguanine/temozolomide combination: an evaluation in a human melanoma xenograft model

The purpose of the present study was to examine the effect of O ⁶-benzylguanine (O ⁶-BG) on the antitumour activity and toxicity of 8-carbamoyl-3-methylimidazo [5, 1-d ] -1,2,3,5-tetrazine-4(3H)-one (temo-zolomide) in a human malignant melanoma xenograft model following single and multiple administration of the combination. O ⁶-BG irreversibly inactivates the DNA-repair protein O ⁶-alkylguanine-DNA alkyltransferase (AGT), which confers resistance to temozolomide. Preadministration of O ⁶-BG (35 mg/kg, i.p.) 1 h prior to temozolomide (i.p.) was examined using single and daily × 5 dosing regimens in athymic mice bearing subcutaneous A375P xenografts. The AGT activity of A375P tumors was 95 ± 8 fmol/mg protein (mean ± SE, n = 4). O ⁶-BG alone completely suppressed xenograft AGT activity within 1 h of administration but had no effect upon tumor growth. O ⁶-BG did not significantly increase the tumor growth delay induced by a single 200-mg/kg dose of temozolomide (P>0.05, two-tailed Mann-Whitney test) but did increase the associated mean body weight loss (P<0.025). In contrast, when the same dose of temozolomide was divided into five equal fractions (40 mg/kg) and given with O ⁶-BG on 5 consecutive days, a comparable increase in toxicity was accompanied by a very significant increase in tumor growth delay (P<0.0025), equivalent to that produced by a 3-fold greater dose of temozolomide alone. O ⁶-BG with temozolomide also produced a greater antitumour effect than an equitoxic dose of temozolomide alone on this schedule (P<0.005). These data indicate that the enhancement of temozolomide antitumour activity by O ⁶-BG preadministration is dependent upon the schedule of drug administration, with multiple dosing of O ⁶-BG + temozolomide producing the greatest effect. The results also suggest that prolonged administration of the combination can lead to an increase in the therapeutic index of temozolomide. Received: 8 September 1996 / Accepted: 8 February 1997     

A pilot phase I trial of continuous hyperthermic peritoneal perfusion with high-dose carboplatin as primary treatment of patients with small-volume residual ovarian cancer

Purpose: Because intraperitoneal (i.p.) therapy may provide a therapeutic advantage and because hyperthermia enhances carboplatin (CBDCA) cytotoxicity, we evaluated the feasibility, toxicity, and pharmacokinetics of CBDCA given via continuous hyperthermic peritoneal perfusion (CHPP) in patients with small-volume residual ovarian cancer. Patients and Methods: Six patients underwent optimal cytoreductive procedures (residual disease ≤5 mm) as initial treatment of stages II and III epithelial ovarian adenocarcinoma. All patients received a 90-min CHPP at a CBDCA dose of 800–1200 mg/m², with the perfusate being recirculated rapidly from a reservoir through a heat exchanger, resulting in i.p. temperatures of 41–43 °C. Plasma, perfusate, and urine samples were collected and platinum was quantified by flameless atomic absorption spectrophotometry. Results: At no time did any patient's core temperature exceed 40 °C. Peak perfusate platinum concentrations were 8- to 15-fold higher than peak ultrafilterable plasma concentrations. The permeability-area product was extremely high and variable (14–90 ml/min), resulting in a regional advantage of 1.9–5.3. The percentage of the dose absorbed ranged widely from 27% to 77%. Dose-limiting hematologic toxicity was observed at a dose of 1200 mg/m² and this was associated with a CBDCA AUC in plasma of 11 mg min ml⁻¹. Conclusions: CHPP with CBDCA was safely given to three patients at a dose of 800 mg/m², and dose-limiting hematologic toxicities observed at 1200 mg/m², correlated with the plasma CBDCA exposure established when lower doses of CBDCA are given systemically. The pharmacokinetic data are consistent with the expected effect of vigorous mixing on the exposed peritoneal surface area. Variable drug absorption and clearance make the prediction of systemic exposure highly uncertain. These findings may have important implications for novel therapies given i.p. Received: 9 March 1998 / Accepted: 11 June 1998     

Depletion of p185erbB2, Raf-1 and mutant p53 proteins by geldanamycin derivatives correlates with antiproliferative activity

Purpose: Recently, it has been shown that geldanamycin (GA), a benzoquinone ansamycin, is able to deplete mutant p53, p185^erbB2 and Raf-1 proteins in cancer cells. However, the relationship between these activities of GA and its antiproliferative activity is not clear. Here we investigated the effects of 28 GA derivatives in SKBr3, a human breast cancer cell line. Methods: We performed Western blot analysis of Raf-1, p185^erbB2 and mutant p53 proteins following drug treatment and correlated these findings with the cytotoxicity of the various GA derivatives. Results: We found that downregulation of Raf-1, p185^erbB2 and mutant p53 proteins was correlated. Thus, a drug that was active against one oncoprotein was equally active against the two others. Inactive derivatives were identified by their inability to downregulate these oncoproteins, even at a high dose (2 μM). These inactive drugs also had no or minimal antiproliferative activity (IC₅₀ > 3 μM). All other analogs (at a concentration of 2 μM) downregulated p53, p185^erbB2, and Raf-1, and also displayed cytotoxicity (IC₅₀ in the range 6–600␣nM). This category of drugs was further divided into more- and less-active agents by testing at lower doses (40 nM). The drugs that remained active against their molecular targets had an IC₅₀ for antiproliferative activity of less than 40 nM. Maximal effects on mutant p53, p185^erbB2 and Raf-1 were observed at doses that were 4–5 times greater than the cytotoxic IC₅₀. Conclusions: These findings suggest that GA and its derivatives are cytostatic/cytotoxic at concentrations that also downregulate Raf-1, p185^erbB2 and mutant p53, and raise the possibility that depletion of these proteins and the antiproliferative activities of GA have a common mechanism. Received: 6 June 1996 / Accepted: 28 September 1996     

Disposition of irinotecan and SN-38 following oral and intravenous irinotecan dosing in mice

The present study was conducted to quantitate the disposition of irinotecan lactone and its active metabolite SN-38 lactone in mice following oral and intravenous administration, and to evaluate the systemic exposure of irinotecan lactone and SN-38 lactone associated with antitumor doses of irinotecan lactone in mice bearing human tumor xenografts. Nontumor-bearing mice were given a single oral or intravenous irinotecan dose (5, 10, 40, or 75 mg/kg), and serial plasma samples were subsequently obtained. Irinotecan and SN-38 lactone plasma concentrations were measured using an isocratic HPLC assay with fluorescence detection. The disposition of intravenous irinotecan lactone was modeled using a two-compartment pharmacokinetic model, and the disposition of oral irinotecan and SN-38 lactone was modeled with noncompartmental methods. Irinotecan lactone showed biphasic plasma disposition following intravenous dosing with a terminal half-life ranging between 1.1 to 3 h. Irinotecan lactone disposition was linear at lower doses (5 and 10 mg/kg), but at 40 mg/kg irinotecan lactone clearance decreased and a nonlinear increase in irinotecan lactone AUC was observed. The steady-state volume of distribution ranged from 19.1 to 48.1 l/m². After oral dosing, peak irinotecan and SN-38 lactone concentrations occurred within 1 h, and the irinotecan lactone bioavailability was 0.12 at 10 mg/kg and 0.21 at 40 mg/kg. The percent unbound SN-38 lactone in murine plasma at 1000 ng/ml was 3.4 ± 0.67%, whereas at 100 ng/ml the percent unbound was 1.18 ± 0.14%. Irinotecan and SN-38 lactone AUCs in micebearing human neuroblastoma xenografts were greater than in nontumor-bearing animals. Systemic exposure to unbound SN-38 lactone in nontumor-bearing animals after a single oral irinotecan dose of 40, 10, and 5 mg/kg was 28.3, 8.6, and 2.9 ng h/ml, respectively. Data from the present study provide important information for the design of phase I studies of oral irinotecan. Received: 30 August 1996 / Accepted: 27 November 1996     

A phase I study of recombinant human soluble interleukin-1 receptor (rhu IL-1R) in patients with relapsed and refractory acute myeloid leukemia

Purpose: The recombinant human interleukin-1 receptor (rhu IL-1R) is a soluble truncated form of the type 1 full-length membrane-bound receptor that binds IL-1 with identical affinity to that of the membrane form. As such, it may have clinical potential by sequestering IL-1, thereby preventing it from binding to its membrane-bound receptor and eliciting a biological effect. As IL-1 has been shown to regulate leukemic cell proliferation in an autocrine fashion, a phase I trial of rhu IL-1R was conducted in patients with relapsed and refractory acute myeloid leukemia (AML). Methods: The study group comprised 11 patients who were sequentially treated on one of three dose levels, receiving a single intravenous (i.v.) bolus dose on day 1 followed by 13 days of daily subcutaneous (s.c.) injections with the option of an additional 14 days of treatment if a response of stable disease or better was achieved. Dose level 1 i.v. bolus 500 g/m², s.c. dose 250 g/m² per day (five patients); dose level 2 i.v. bolus 1000 g/m², s.c. dose 500 g/m² per day (three patients); dose level 3 i.v. bolus 2000 g/m², s.c. dose 1000 g/m² per day (three patients). Owing to limited drug availability, the study was designed to only examine these three dose levels. Results: rhu IL-1R was well tolerated. There was no grade 3 or 4 non-hematological toxicity related to the study drug and the maximum tolerated dose was not reached. No IL-1R-blocking antibodies developed during the course of the study. Serum levels of IL-1, IL-6 and TNF were undetectable before, during and after rhu IL-1R administration. The terminal half-life after i.v. dosing was at least 7–12 h, and after s.c. dosing 2–4 days. Serum levels of rhu IL-1R up to 360- and 25-fold those of pretreatment levels were achieved after i.v. and s.c. dosing respectively. No patient had a complete, partial or minor response to treatment; four had stable disease and seven had progressive disease. Conclusions: rhu IL-1R therapy was safe but did not have any apparent antileukemic effect at the doses administered. Received: 6 October 1997 / Accepted: 1 April 1998     

Phase I and pharmacologic study of 7- and 21-day continuous etoposide infusion in patients with advanced cancer

 Purpose. This phase I study was undertaken to evaluate the safety and tolerability of prolonged infusional etoposide, and to evaluate its pharmacokinetic/pharmacodynamic profile in patients with advanced cancer. Methods. A group of 17 patients received a 7-day infusion of etoposide (schedule A) every 21 days at doses from 30 to 75 mg/m² per day, and a second group of 37 patients a 21-day infusion (schedule B) every 28 days at doses from 18 to 40 mg/m² per day. Patients had a median Karnofsky performance status (PS) of 80%, and 34 patients had no prior chemotherapy. Etoposide concentrations at steady state (Css) and other pharmacokinetic parameters (plasma clearance, CLp; area under the curve, AUC) were determined during the first treatment cycle. Correlation coefficients were calculated to measure the relationship between variables. Results. Myelosuppression was the major toxicity, and was associated with three deaths. The maximum tolerated dose due to neutropenia was 75 mg/m² per day for schedule A and 40 mg/m² per day for schedule B. There was significant interpatient pharmacokinetic variability in both infusional schedules. Even though etoposide dose levels did not significantly correlate with plasma levels, the Css was ≥1 μg/ml in the majority of the patients. A significant correlation between AUC and neutrophil absolute decrease was noted only in schedule B (r=0.56,  P=0.003). There were several marginal relationships in schedule B: PS versus Css (r=0.31,  P=0.058), PS versus AUC (r=−0.38; P= 0.058) and age versus CLp (r=−0.31, P=0.057). Conclusion. Overall, significant correlations were found for several hematologic variables and etoposide dose levels, but not with the Css values. One major problem with the application of pharmacodynamic models to predict hematologic toxicity in clinical practice is the presence of significant interpatient variability. Received: 3 April 1995/Accepted: 6 December 1995     

Antibody-directed enzyme prodrug therapy: pharmacokinetics and plasma levels of prodrug and drug in a phase I clinical trial

Antibody-directed enzyme prodrug therapy (ADEPT) was administered to ten patients in a phase I clinical trial. The aim was to measure plasma levels of the prodrug 4-[(2-chloroethyl)(2-mesyloxyethyl) amino] benzoyl-l-glutamic acid (CMDA) and the bifunctional alkylating drug (CJS11) released from it by the action of tumour-localised carboxypeptidase G2 (CPG2) enzyme. New techniques were developed to extract the prodrug and drug from plasma by solid-phase adsorbtion and elution and to measure CPG2 activity in plasma and tissue. All extracts were analysed by high-performance liquid chromatography (HPLC) and liquid chromatography-mass spectrometry (LC-MS). CPG2 activity was found in metastatic tumour biopsies but not in normal tissue, indicating that localisation had been successful. The clearing agent SB43-gal, given at 46.5 mg/m², achieved the aim of clearing non-tumour-localised enzyme in the circulation, indicating that conversion of prodrug to drug could take place only at the site of localised conjugate. Plasma prodrug did not always remain above its required threshold of 3 μM for the “therapeutic window” of 120 min after dosing, but the presence of residual prodrug after the first administration of each day indicated that this could be achieved during the remaining four doses over the following 8 h. Despite considerable inter-patient prodrug plasma concentration variability, the elimination half-life of the prodrug was remarkably reproducible at 18 ± 8 min. Rapid appearance of the drug in plasma indicated that successful conversion from the prodrug had taken place, but also undesirable leakback from the site of localisation into the bloodstream. However, drug plasma levels fell rapidly by at least 50% at between 10 and 60 min with a half-life of 36 ± 14 min. Analysis of the plasma extracts by LC/MS indicated that this technique might be used to confirm qualitatively the presence of prodrug, drug and their metabolites. Received: 21 July 1996 / Accepted: 20 January 1997     

Phase II study of CI-958 in colorectal cancer

Purpose: We completed a phase II trial of CI-958 (NSC #635371) in patients with advanced colorectal cancer given at a dose of 700 mg/m² every 21 days. Methods: All 15 patients had metastatic disease and had been previously treated with one 5-fluorouracil-based regimen in an adjuvant (six) or metastatic (nine) setting. Results: None of the patients treated with CI-958 had an objective response to treatment. Median survival was 4.8 months after the start of treatment. Leukopenia was the major toxicity, but no patient experienced febrile neutropenia. An acute febrile reaction was seen after infusion in four of the first nine patients treated. This was abrogated by pretreatment with dexamethasone in the remaining patients. Conclusions: CI-958 was not effective at this dose and schedule in patients with previously treated advanced colorectal cancer. Received: 31 March 1998 / Accepted: 1 June 1998     

Dose intensity of uracil and tegafur in postoperative chemotherapy for patients with poorly differentiated gastric cancer

A retrospective analysis of postoperative chemotherapy had shown the continuous administration of UFT, an oral preparation of 1-(2-tetrahydrofuryl)-5-fluorouracil (tegafur) and uracil at a molar ratio of 1:4, to be effective for poorly differentiated gastric cancer. We therefore sought to determine prospectively the effective dose of postoperative chemotherapy with UFT for patients with poorly differentiated gastric cancer following a curative resection. We determined the effect of the combined intravenous administration of mitomycin C (MMC) and oral treatment with protein-bound polysaccharide Kreha (PSK), extracted from the basidiomycete Coriolus versicolor, and UFT at a dose of either 8 mg/kg or 12 mg/kg daily for 1 year. A total of 224 patients with poorly differentiated stage II–IV gastric cancer were entered into this study after undergoing a curative resection. No differences were observed between the two treatment groups in terms of prognostic factors, the toxicity rate or the doses of the drugs prescribed, other than UFT. The higher dose of UFT in maintenance therapy led to a decrease in the recurrence rate (P < 0.05), and increases in disease-free survival and cause-specific survival (P < 0.05). UFT at 12 mg/␣kg in postoperative chemotherapy was thus found- to improve the postoperative results with no increase in toxicity for poorly differentiated gastric cancer, and is also cost-effective for outpatients. Received: 8 February 1996 / Accepted: 27 November 1996     

Inter- and intraindividual variation in dihydropyrimidine dehydrogenase activity in peripheral blood mononuclear cells

Purpose: The activity of dihydropyrimidine dehydrogenase (DPD), the rate-limiting enzyme in fluorouracil catabolism, has been reported to vary according to time of day. We wished to determine whether peak and trough DPD activities occurred at uniform times in six subjects, whether individual patterns fit a discernible profile, and whether such patterns were consistent and reproducible over time. Methods: Mononuclear cells were isolated from peripheral blood at 3-h intervals over a 24-h period on three different dates over a 6-month period. DPD activity was determined by incubating cellular lysates with [³H]FUra and measuring [³H]dihydrofluorouracil formation over time. Results: When the data were averaged by study date for each subject, the median value for the average DPD activity (11.0 pmol/min per 10⁶ cells) was significantly different from both the median peak (21.1 pmol/min per 10⁶ cells, P = 0.004) and median trough activities (4.0 pmol/min per 10⁶ cells, P = 0.002). Within the six␣subjects, the average DPD activity for the three study dates differed by a median of 2.4-fold (range 1.2- to 4.8-fold). The time at which peak and trough DPD activities occurred varied between subjects: 8 of the 17 peaks (47%) occurred between 10:00 p.m. and 6:00 a.m., 6 (35%) occurred between 8:00 a.m. and 3:00 p.m., and 3 (18%) occurred between 5:00 p.m. and 8:15 p.m. Thus, the time of day when the peak occurred was essentially randomly distributed over the 24-h period of observation (P = 0.68). Ten (59%) of the trough DPD activities occurred between 7:00 a.m. and 3:00 p.m. The median interval between the peak and trough was 6.5 h. The data were also expressed as percent of the mean for each individual's 24-h sampling period, and reordered as time from peak rather than as the actual time of day. When the combined data for all cycles was considered, the trough occurred 6–9 h after the peak, and the DPD levels subsequent to the peak did not display merely random variation (P = 0.0055). Conclusions: DPD activity levels and the times at which peak and trough DPD activities occurred varied both between and within subjects. If fluctuations in DPD activity influence the tolerability of fixed-rate infusions of FUra, these data suggest that a single variable-rate infusion regimen may not be suitable for all patients nor for a given individual treated over several months. Received: 1 April 1996 / Accepted: 7 October 1996     

Plasma pharmacokinetics of N -[2-(dimethylamino)ethyl]acridine-4-carboxamide in a phase I trial

DACA {N-[2-(dimethylamino)ethyl]acridine-4-carboxamide} is an acridine derivative with high activity against solid tumours in mice and a dual mode of cytotoxic action involving topoisomerases I and II. The plasma pharmacokinetics of DACA were studied in 28 patients with solid tumours in a phase I trial. A single dose was given every 3 weeks, being escalated from a starting dose of 18 mg/m² (as the dihydrochloride trihydrate salt) to a maximal dose, limited by severe pain in the infusion arm, of 1000 mg/m². Drug was given by constant intravenous infusion with a target delivery period of 3 h. Blood samples were taken from the contralateral arm before, during and for up to 72 h after the infusion. DACA was separated from plasma by solid-phase extraction and was analysed by reversed-phase high-performance liquid chromatography (C18 column) using fluorescence detection. A two-compartment pharmacokinetic model provided the best fit for the concentration-time profiles obtained for most patients showing clearance of 1.00 ± 0.36 l h⁻¹ kg⁻¹, a volume of distribution of the central compartment of 0.72 ± 0.55 l/kg, an initial half-life of 0.28 ± 0.19 h and a terminal half-life of 2.04 ± 0.94 h. All pharmacokinetic parameters were independent of dose, indicating first-order kinetics. As DACA binds strongly to α₁-acid glycoprotein, plasma concentrations of this protein were determined and used to estimate free-drug fractions in plasma. Estimated values for the free fraction varied from 0.9% to 3.3% and were lower than those determined by equilibrium dialysis for mice and rats (15% and 16%, respectively). At the maximum tolerated dose (MTD) of 750 mg/m², the area under the drug concentration-time curve (AUC) was 46.2 ± 4.4 μM h, exceeding that obtained in mice treated at the MTD (23.4 μM h). On the other hand, the corresponding free-drug AUC was 0.92 ± 0.03 μM h, much lower than the corresponding value (3.5 μM h) determined for mice. These results suggest that free-drug rather than total drug concentrations are more appropriate for interspecies dose comparisons when significant differences exist in the free plasma fraction. Received: 27 August 1998 / Accepted: 10 December 1998     

Measurement of nitrobenzylthioinosine in plasma and erythrocytes: a pharmacokinetic study in mice

Purpose: Nitrobenzylthioinosine (NBMPR), a potent inhibitor of nucleoside transport in many cell types, modulates the in vivo disposition of several cytotoxic nucleoside analogs. In this study, a radioligand binding assay was developed for measurement of the NBMPR content of plasma and erythrocytes. Methods: The assay was based on the competition between NBMPR and [³H]NBMPR for high-affinity sites on human erythrocyte membranes. With this assay, we followed in mice changes in the NBMPR content of blood plasma and erythrocytes, following the intraperitoneal injection of the disodium salt of NBMPR 5′-monophosphate (NBMPR-P), a prodrug form of NBMPR. Results: The radioligand binding assay was able to measure precisely as little as 2.5 pmol of NBMPR, allowing the direct determination of NBMPR concentrations in plasma as low as 16 nM. As few as 8 × 10³ molecules of NBMPR per cell could be determined in erythrocytes. The NBMPR content of plasma from mice injected with NBMPR-P was maximal at about 20 min after injection and declined to <0.2% of the peak value by 10 h. Erythrocyte-associated NBMPR was also maximal at 20 min, and declined to 11% of the peak value by 10 h after injection. Time courses for the disappearance of NBMPR from plasma and erythrocytes were monoexponential and yielded half-life values of 0.39 h and 0.68 h, respectively, an apparent volume of distribution of 0.61 l/kg, and a clearance of 1.1 l/h per kg. Conclusions: The radioligand binding assay is a sensitive and facile method for monitoring NBMPR concentrations in mammalian plasma and tissue extracts. Received: 20 August 1995 / Accepted: 17 December 1996     

A limited sampling strategy for estimation of the cladribine plasma area under the concentration versus time curve after intermittent i.v. infusion,s.c. injection,and oral administration

 Cladribine is a newly developed antimetabolite with promising activity in lymphoproliferative disorders. Recent pharmacokinetics investigations have suggested that there is a relationship between its plasma area under the concentration versus time curve (AUC) and the degree of neutropenia posttreatment as well as the therapeutic outcome in hairy-cell leukemia. To enable a simple estimation of the plasma AUC, a limited sampling strategy was developed. Stepwise linear regression was used to determine which were the most important data points for estimation of the plasma AUC after 2-h i.v. infusion, s.c. injection (5 mg/m²), and oral administration (10 mg/m²) in 27 patients. The most important data points after i.v. infusion in 12 patients were 1, 4, and 24 h, in order of importance. The AUC could be estimated as 2.9081×C _1h ⁺5.1851×C _4h ⁺20.3265×C _24h .The accuracy and precision (mean value±SD for the determined/estimated AUC was 0.99±0.053) of the model could not be increased by the addition of more data points. A somewhat lower accuracy and precision (0.96± 0.089) was seen with the 2-, 4-, and 24-h data points. These were used to test the regression technique prospectively for the estimation of the AUC after i.v. administration in another set of 10 patients. The accuracy and precision of the estimation of the AUC was similar in this group (1.01±0.109). In all, 11 patients were treated orally (10 mg/m²) and 10 patients were treated by s.c. injection (5 mg/m²). The most important data points for estimation of the AUC were 2.5, 24, and 0.5 h after oral administration (AUC=0.8630×C _0.5 h+ 4.2337×C _2.5h ⁺45.4364×C _24h ) and 9, 1, and 16 h after s.c. injection (AUC=1.8821×C _1h +16.4256×C _9h ⁺ 25.4518×C _16h ). The accuracy and precision were 1.01±0.064 after oral dosing and 0.99±0.11 after s.c. injection. The derived mathematical models are reliable for estimation of the plasma AUC of cladribine after 2-h i.v. infusion, oral administration, and s.c. injection. Received: 8 October 1995/Accepted: 1 March 1996     

Pharmacokinetics of intrapericardial administration of 5-fluorouracil

A 30-year-old patient with metastatic breast adenocarcinoma was diagnosed as having a malignant pericardial effusion. Methods: The patient was treated with two courses of 200 mg 5-fluorouracil (5-FU) followed by 20 mg cisplatin 5 h later directly infused into the pericardial space through a catheter. The drug levels of the 5-FU were monitored during the second treatment. The half-life of 5-FU in the pericardial space was 168.6 min with a concentration of 0.113 mg/ml still detected at 5 h. The area under the curve (AUC) was estimated to be 4.739 mg h/ml. The plasma concentrations of 5-FU ranged from 0.022 to 0.04 mg/ml throughout the infusion. Results: There was no significant change in the patient's blood counts or chemistry profile. She did not experience any side effects during the treatment. A pericardial window was performed 2 days later when balloon pericardiectomy was unsuccessful. The patient eventually succumbed to her disease 4 months later, but without evidence of pericardial effusion. Conclusions: We conclude that pericardial infusion of 5-FU allowed a high concentration of 5-FU to be achieved within the pericardial sac with a greatly increased half-life over that of systemic 5-FU treatment (168 min vs 6–20 min), and with little systemic toxicity. Received: 12 September 1996 / Accepted: 12 December 1996     

Protective role of metallothionein in renal toxicity of cisplatinum

To elucidate the protective role of metallothionein (MT) in the prevention of cisplatinum (cis-DDP) toxicity, we investigated the lethal and renal toxicities caused by cis-DDP in MT-null transgenic mice in comparison with wild-type control mice, and examined the effect of pretreatment with bismuth nitrate or zinc sulfate on the cis-DDP nephrotoxicity. The MT-null mice were of mixed 129 Ola and C57BL/6 genetic background. Since no differences in cis-DDP nephrotoxicity were observed between these strains, C57BL/6J mice were used as the wild-type control. The basal MT levels in the kidneys were negligible in the MT-null mice and 2.93 ± 0.77 μg/g tissue in the C57BL/6J mice. In terms of both the lethal and renal toxicities of cis-DDP, MT-null mice were far more sensitive than C57BL/6J mice. Preinduction of renal MT synthesis by administration of bismuth nitrate or zinc sulfate protected C57BL/6J mice from cis-DDP nephrotoxicity. In the case of MT-null mice, however, renal MT could not be induced by pretreatment with these metal compounds, and renal toxicity of cis-DDP was not prevented by this pretreatment. These results suggest that MT is an important factor with the potential to suppress the development of cis-DDP toxicity. Received: 17 June 1996 / Accepted: 27 November 1996     

Pharmacokinetics of paclitaxel administered in combination with cisplatin, etoposide and bleomycin in patients with advanced solid tumours

 Purpose: To evaluate the pharmacokinetics of paclitaxel and cisplatin administered in combination with bleomycin and etoposide and Granulocyte Colony-Stimulating Factor (G-CSF) in patients with advanced solid tumours. Methods: Patients were recruited to a phase I trial where escalating doses of paclitaxel (125 to 200 mg/m²) were administered in combination with etoposide 100 or 120 mg/m², and fixed dose of cisplatin 20 mg/m² and bleomycin 30 mg, with the concomitant use of G-CSF. Paclitaxel (3-h infusion) was followed by 1-h etoposide, 4-h cisplatin and 30-min bleomycin infusions, respectively. Pharmacokinetics sampling for paclitaxel analysis was performed in ten patients from dose levels II–V. Results: The mean paclitaxel area under the plasma concentration-versus-time curves (AUC) for the 125-mg/m² dose level (II) was 7.0 ± 3.6 h μmol⁻¹ l⁻¹, for the 175-mg/m² dose level (III) 10.6 ± 2.8 h μmol⁻¹ l⁻¹, for the 200-mg/m² dose level (IV) it was 16.0 ± 5.0 h μmol⁻¹ l⁻¹, and for the 175-mg/m² dose level (V) it was 12.5 ± 6.1 h μmol⁻¹ l⁻¹. The mean peak plasma concentration (C_max) values for dose levels II–V were 1.9 ± 1.1 μmol/l, 3.4 ± 1.2 μmol/l, 4.3 ± 1.0 μmol/l and 3.8 ± 1.2 h μmol/l, respectively. Conclusion: In this study, relevant pharmacokinetic parameters of paclitaxel like AUC, C_max and the paclitaxel plasma concentration above the pharmacologically relevant 0.1-μmol/l threshold concentration (t > 0.1 μM) when administered in combination with cisplatin, etoposide and bleomycin (PEB) were not statistically different from paclitaxel data of historical controls. However, given the trial design, pharmacokinetic interactions between the agents cannot be excluded. Received: 29 June 1998 / Accepted: 29 January 1999     

Clinical pharmacokinetics of intravenous treosulfan in patients with advanced solid tumors

Treosulfan (l-threitol-1,4-bis-methanesulfonate, Ovastat) is a prodrug of a bifunctional alkylating agent with activity in ovarian carcinoma and other solid tumors. For a clinical and pharmacology study, patients with advanced, refractory, or resistant solid tumors were treated with a single-dose intravenous 30-min infusion of 8 or 10 g/m² treosulfan. A sensitive method for the determination of treosulfan in plasma and urine by reverse-phase high-performance liquid chromatography was developed. A total of 14 plasma and urine treosulfan pharmacokinetics determinations were analyzed in the 8-g/m² group and 7 were analyzed in the 10-g/m² group, the maximum tolerated dose for this group of pretreated patients. The terminal half-life of treosulfan was in the range of 1.8 h. AUC and C_max values were significantly (P < 0.01) higher in the 10-g/m² group (AUC 708 ± 168 versus 977 ± 182 μg ml⁻¹ h, C_max 465 ± 98 versus 597 ± 94 μg/ml). The mean urinary excretion of the parent compound was about 25% of the total dose delivered over 48 h (range 5–49%), and about 20% was excreted during the first 6 h after administration. Currently, a clinical phase I pharmacokinetics and dose-escalation trial with autologous blood stem-cell support has been started at 20 g/m² treosulfan using a 2-h infusion protocol. Received: 25 August 1997 / Accepted: 15 December 1997