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 I clinical trial of all-trans-retinoic acid with correlation of its pharmacokinetics and pharmacodynamics

 A phase I trial of all-trans-retinoic acid (ATRA) was conducted to establish the maximum tolerable dose (MTD) of ATRA given once daily to patients with solid tumors. Cancer patients for whom no standard therapy was available were treated with ATRA once daily. Doses were escalated in cohorts of at least three patients. The pharmacokinetics of ATRA were assessed on day 1 for all patients and weekly for 31 patients who received doses of ≥110 mg/m² per day. Patients were followed for toxicity and response. Correlations of toxicity frequency and grade with pharmacokinetic parameters were sought. In addition, correlation of changes in ATRA pharmacokinetics with the concentration of ATRA metabolites in plasma were sought. A total of 49 patients received ATRA at doses ranging from 45 to 309 mg/m² per day. Hypertriglyceridemia was dose-limiting at 269 mg/m² per day. Other frequent toxicities included mucocutaneous dryness and headache. With chronic dosing, plasma ATRA concentrations fell in 59% of patients. Stable, low, or variable [ATRA] were seen in 16%, 6%, and 16% of patients respectively. Age, gender, smoking, or concurrent medication did not correlate with the pharmacokinetic pattern. Severe toxicities tended to occur with initial peak [ATRA] of ≥0.5 μg/ml (1.7 μM), and the toxicity frequency did not change if [ATRA] decreased with continued dosing. No consistent change in 4-oxo-ATRA or retinoid glucuronide concentrations was observed with decreases in plasma [ATRA]. The recommended once-daily ATRA dose is 215 mg/m², although significant interpatient variability is observed in toxicity and plasma retinoid concentrations. Although not statistically significant, more frequent and severe toxicity tended to occur in patients with higher plasma peak ATRA concentrations. Other factors, such as responses at target tissues, may be at least as important as the plasma ATRA concentration in predicting toxicity and/or response. Received: 7 January 1996 / Accepted: 24 June 1996     

Alteration of etoposide pharmacokinetics and pharmacodynamics by cyclosporine in a phase I trial to modulate multidrug resistance.

PURPOSE: To determine the effects of high-dose cyclosporine (CsA) infusion on the pharmacokinetics of etoposide in patients with cancer. PATIENTS AND METHODS: Sixteen patients were administered 20 paired courses of etoposide and CsA/etoposide. Etoposide was administered daily for three days, alone or with CsA, which was delivered by a loading dose and 3-day infusion. Etoposide was measured by high-performance liquid chromatography (HPLC) and serum CsA by nonspecific immunoassay. Etoposide pharmacokinetics included area under the concentration-time curve (AUC), total and renal clearance (CL), half-life (T1/2), and volume of distribution at steady state (Vss). RESULTS: CsA concentrations more than 2,000 ng/mL produced an increase in etoposide AUC of 80% (P less than .001), a 38% decrease in total CL (P < .01), a > twofold increase in T1/2 (P < .01), and a 46% larger Vss (P = .01) compared with etoposide alone. CsA levels ranged from 297 to 5,073 ng/mL. Higher CsA levels (< 2,000 ng/mL v > 2,000 ng/mL) resulted in greater changes in etoposide kinetics: Vss (1.4% v 46%) and T1/2 (40% v 108%). CsA produced a 38% decrease in renal and a 52% decrease in nonrenal CL of etoposide. Etoposide with CsA levels > 2,000 ng/mL produced a lower WBC count nadir (900/mm3 v 1,600/mm3) compared with baseline etoposide cycles. CONCLUSIONS: High-dose CsA produces significant increases in etoposide systemic exposure and leukopenia. These pharmacokinetic changes are consistent with inhibition by CsA of the multidrug transporter P-glycoprotein in normal tissues. Etoposide doses should be reduced by 50% when used with high-dose CsA in patients with normal renal and liver function. Alterations in the disposition of other multidrug resistance (MDR)-related drugs should be expected to occur with modulation of P-glycoprotein function in clinical trials.     

Phase I trial of chloroguinoxaline sulfonamide,with correlation of its pharmacokinetics and pharmacodynamics

To define a maximum tolerable dose, chloroquinoxaline sulfonamide (CQS) was given as a 1-h infusion every 28 days to cancer patients for whom no effective standard therapy was available. Doses were escalated in cohorts of at least three patients each. Plasma for characterization of the pharmacokinetics of free and total CQS was obtained during and after the initial infusion and, when possible, during and after subsequent infusions of CQS if the dose had been reduced. A total of 101 courses of CQS in 55 patients were evaluated. Dose levels ranged from 18 to 3,700 mg/m². The dose-limiting toxicity was hypoglycemia, first recognized at the 3,700-mg/m² dose. When dose-limiting hypoglycemia was recognized, patients were entered at successively lower doses, with close monitoring of plasma glucose and insulin concentrations being done in 26 patients. grade 1–3 hypoglycemia occurred within 4 h of the termination of CQS infusion and cleared by 24 h. Symptomatic hypoglycemia was more frequent at doses of CQS above 1,000 mg/m² Concomitant administration of 5% gyciosion being done in 26 patients. Grade 1–3 hypoglycemia close monitoring of plasma glucose and insulin concentrations being done in 26 patients. Grade 1–3 hypoglycemia occurred within 4 h of the termination of CQS infusion and cleared by 24 h. Symptomatic hypoglycemia was more frequent at doses of CQS above 1,000 mg/m². Concomitant administration of 5% glucose did not ameliorate the hypoglycemia associated with CQS doses of >1,000 mg/m². The total calorie intake, percentage of ideal body weight, or percentage of weight lost did not explain the incidence or severity of hypoglycemia in 12 patients in whom these data were obtained. Cardiac tachyarrhythmias occured in 7 patients who received CQS at doses of 1,000 mg/m², and tachyarrhythmia was associated with hypoglycemia in 3 patients. Other toxicities were sporadic, but the frequency of toxicity was higher at CQS doses of 1,000 mg/m². These toxicities included fever, rash, lightheadedness, leukopenia, thrombocytopenia, alopecia, diarrhea, nausea, and vomiting. All toxicities were reversible. Mean peak plasma [CQS] and AUC increased with dose, with a suggestion that peak plasma [CQS] plateaued at higher doses. The decline in plasma [CQS] was fitted to a three-compartment, open linear model. The terminal half-life ranged from 28 to 206 h. Total body clearance ranged from 44 to 881 ml/h with no evidence of saturation. Urinary excretion of the parent compound in 24 h averaged <5%. CQS not bound to plasma protein (free CQS) comprised 1%–17% of total plasma CQS and was not related to dose. A relationship was defined between the magnitude of hypoglycemia and CQS pharmacokinetic parameters. The percentage of decrease in plasma [glucose], i.e., (predose [glucose]-nadir [glucose]/predose [glucose])×100, correlated with both free and total peak plasma [CQS]. The relationship was described by the Hill equation:Effect=(Emax) (peak) ^H/(peak ₅₀)^H+(peak)^H, where the maximal effect (Emax) equals the maximal possible percentage of decrease in plasma [glucose] equals 100%,peak ₅₀ is the peak total [CQS] at whichE is half-maximal (326 mg/l), andH is the Hill constant, a measure of the sigmoidicity of the relationship (1.06). The relationship fit the data precisely with a mean absolute error (MAE) of 10.42 and was unbiased with a mean error (ME) of –0.06. The recommended phase II dose of CQS is 1,000 mg/m². Because the magnitude of hypoglycemia after CQS administration is related to peak plasma [CQS], repetitive CQS doses of 1,000 mg/m² would probably be tolerated better than single large doses of equivalent intensity.Abbreviations CQS Chloroquinoxaline sulfonamide - AUC area under the plasma concentration x time curve - CLTB total body clearance - MAE mean absolute error - ME mean error - DNA deoxyribonucleic acid - BCNU carmustine [N, N-bis(2-chloroethyl)-N-nitrosourea] - ECOG Eastern Cooperative Oncology Group - WBC white blood cell count - PLT platelet count - ALT alanine aminotransferase - AST aspartate aminotransferase - PT prothrombin time - PTT partial thromboplastin time - EKG electrocardiogram - D5W 5% dextrose in water - HPLC high-performance liquid chromatography - BEE basal energy expenditure This work was supported in part by contract N-01-CM-07303 awarded by the National Cancer Institute, Department of Health and Human Services. One of the authors (B.A.C.) is the recipient of American Cancer Society Clinical Oncology Career Development Award 90-127     

Plasma pharmacokinetics of cyclophosphamide and its cytotoxic metabolites after intravenous versus oral administration in a randomized, crossover trial

Since cyclophosphamide is used by both oral and i.v. routes in the treatment of hematological and solid malignancies, we designed a randomized, crossover clinical trial to evaluate the pharmacokinetics of this anticancer agent after either administration route. Plasma levels of cyclophosphamide and its two cytotoxic metabolites, 4-hydroxycyclophosphamide and phosphoramide mustard, were determined in seven cancer patients randomly assigned to treatment initially with either orally or i.v. administered cyclophosphamide with a 30-day interim between alternate therapy courses. Oral treatment was used initially in five patients and i.v. treatment in two patients, and the pharmacokinetic parameter, area under the plasma disappearance curve, was determined for each metabolite in each patient for both routes of drug administration. Statistical comparison of area under the plasma disappearance curve values for this set of patients indicated no significant differences for either metabolite for oral versus i.v. drug treatment, suggesting equal efficacy for these two routes of cyclophosphamide administration.     

Pharmacokinetics and pharmacodynamics of imatinib in a phase I trial with chronic myeloid leukemia patients.

PURPOSE: To evaluate the basic pharmacokinetic (PK) characteristics of imatinib mesylate and assess the relationship between the PK and pharmacodynamic (PD) properties of the drug. PATIENTS AND METHODS: The PK and PD properties of imatinib were investigated during a phase I trial that included 64 adult patients with Philadelphia chromosome-positive leukemias. Patients received imatinib orally once or twice daily. PK parameters of imatinib, derived from the plasma concentration-time curves, were determined. PD response, defined as the WBC after 1 month of treatment with imatinib, was used to develop an efficacy model. A maximum inhibition-effect model was used to describe the relationship between reduction in WBC and drug exposure parameters. RESULTS: Imatinib exposure was dose proportional after oral administration for the dose range of 25 to 1,000 mg. There was a 1.5- to three-fold drug accumulation after repeated once-daily dosing. Mean plasma trough concentration was 0.57 microg/mL (approximately 1 micromol/L) 24 hours after administration of 350 mg of imatinib at steady-state, which exceeds the 50% inhibitory concentration required to inhibit proliferation of Bcr-Abl-positive leukemic cells. Analysis of PK/PD relationships indicates that the initial hematologic response depends on the administered dose for patients with chronic myeloid leukemia. CONCLUSION: Drug exposure (area under the concentration-time curve) is dose proportional for the dose range of 25 to 1,000 mg, and there is a 1.5- to three-fold drug accumulation at steady-state after once-daily dosing. Analysis of the relationship between PD (WBC reduction) and PK parameters at steady-state indicates that a dose of 400 mg or greater is required for maximal PD effect.     

Virus-directed, enzyme prodrug therapy with nitroimidazole reductase: a phase I and pharmacokinetic study of its prodrug, CB1954.

CB1954 [5-(aziridin-1-yl)-2,4-dinitrobenzamide] is converted by the bacterial enzyme nitroimidazole reductase (NTR) into a potent cytotoxic bifunctional alkylating agent, which can be delivered to tumors in adenoviral vectors as virus-directed, enzyme prodrug therapy. This report summarizes a Phase I and pharmacokinetic study of the prodrug, CB1954. Thirty patients, ages 23-78 years (median 62 years), with predominantly gastrointestinal malignancies were treated. CB1954 was administered by i.v. injection every 3 weeks or i.p. followed by 3-weekly i.v. injections, toward a maximum of six cycles. The dose was escalated from 3 to 37.5 mg/m2. No significant toxicity was seen until 24 mg/m2 (recommended i.v. dose). Dose-limiting toxicities (DLT) were diarrhea and hepatic toxicity, seen at 37.5 mg/m2. DLT has not been observed at the current i.p. dose of 24 mg/m2. There was no alopecia, marrow suppression, or nephrotoxicity. Clearance data suggest hepatic metabolism, and <5% of CB1954 was renally excreted. There was a nonlinear relationship between i.v. dose and area under the curve (AUC). At the recommended i.v. dose of 24 mg/m2, the AUC was 5.8 microM/h. Intraperitoneal administration (24 mg/m2) achieved an AUC of 387 microM/h, giving a considerable regional advantage. In vitro, the AUC required to achieve the IC50 for CB1954, in NTR-expressing cancer cells, ranges from 10-50 microM/h. Thus, CB1954 is well tolerated at a dose of 24 mg/m2, and sufficient serum/peritoneal levels are achieved for an enzyme-prodrug approach to be feasible. We are now conducting a Phase I trial combining adenovirus-mediated NTR and i.v. CB1954 (24 mg/m2) in patients with primary and secondary liver tumors.     

The CDRH helix. A phase I clinical trial

Seventeen patients have been given regional hyperthermia treatments using the Center for Devices and Radiologic Health (CDRH) Helix, a resonant helical coil unit. Most of these patients had large, clinically advanced tumors, whose mean volume exceeded 1000 cc. Mean maximum, minimum, and average temperatures were 40.6, 38.6, and 39.6 degrees C, respectively, for all sites combined. The pelvic heating capabilities of the CDRH Helix and the BSD-1000 annular phased array were compared, and generally were equivalent. Although the Helix could be used in a wider variety of locations, and was more comfortable and easier to use than the BSD-1000 annular phased array, neither device was particularly effective in generating clinically useful temperatures; the Helix is currently under investigation for use in regional-systemic hyperthermia in combination with antineoplastic drugs and biologic response modifiers.     

Prochlorperazine as a doxorubicin-efflux blocker: phase I clinical and pharmacokinetics studies

Summary Doxorubicin (DOX) efflux in drug-resistant cells is blocked by phenothiazines such as trifluoperazine (TFP) and prochlorperazine (PCZ) in vitro. The present phase I study was conducted in 13 patients with advanced, incurable, nonhematologic tumors to determine whether PCZ plasma levels high enough to block DOX efflux could be achieved in vivo. The treatment schedule consisted of prehydration and i. v. administration of 15, 30, 50, and 75 mg/m² PCZ followed by a standard dose of 60 mg/m² DOX. The hematologic toxicities attributable to DOX were as expected and independent of the PCZ dose used. Toxicities attributable to PCZ were sedation, dryness of the mouth, cramps, chills, and restlessness. The maximal tolerated dose (MTD) of PCZ in this schedule was 75 mg/m². Pharmacokinetic analysis indicated a large interpatient variation in peak plasma PCZ levels that ranged from 95 to 1100 ng/ml. The three plasma half-lives of PCZ were:t ₁/2 (±SE), 20.9±5.3 min;t1/2, 1.8±0.3 h; andt1/2, 21.9±5.3 h. The volume of distribution (V_d), total clearance (Cl_T), and area under the curve (AUC) for PCZ were 2254±886 l/m², 60.2±13.5 l m^–2h^–1, and 1624±686 ng ml^–1 h, respectively. DOX retention in tumor cells retrieved from patients during the course of therapy indicated the appearance of cells with enhanced DOX retention. The combination of DOX and high-dose i. v. PCZ appeared to be safe, well tolerated, and active in non-small-cell lung carcinoma.Supported in part by the Joan Levy Cancer Foundation and by NIH-NCI grants CA-44737 and CA-29360     

Recombinant interleukin 2 toxicity, pharmacokinetics, and immunomodulatory effects in a phase I trial

Twenty-two patients with refractory malignancies were treated with four escalating weekly doses of recombinant interleukin 2 (IL2), given either i.v. by 2- or 24-h infusion, or s.c. A 1-wk washout period between each dose of IL2 was provided for the evaluation for pharmacokinetic and immunomodulatory effects. The maximum i.v. dose was 30 X 10(6) units; the dose-limiting toxicities were fever, flu-like symptoms, and hypotension. The maximum s.c. dose was 3 X 10(6) because of volume limitations with s.c. injection. No tumor regression was seen. During infusions of 3 X 10(6) units over 2 h or 24 h, serum IL2 levels greater than or equal to 223 units/ml or 16 units/ml were maintained, respectively; with s.c. injection of 3 X 10(6) units, levels greater than 20 units/ml were maintained for 9 h. Marked lymphopenia was observed 24 h after the initiation of IL2 doses which was completely reversible when measured prior to the next dose. The lymphopenia was nonselective; T- and B-lymphocytes decreased in an IL2 dose-dependent manner, without consistent change in the OKT4:OKT8 ratio. No change was detected in monocyte expression of HLA-Dr or T-cell expression of the IL2 receptor. The in vitro generation of lymphokine-activated killer cytotoxicity decreased sharply and transiently shortly after i.v. doses. Mitogen responsiveness, delayed-type hypersensitivity, natural killer cytotoxicity, and mixed-lymphocyte reactivity were unchanged or decreased transiently shortly after IL2 doses. These studies help define the bioavailability of IL2 by i.v. or s.c. routes, and they will aid in the design of studies utilizing daily doses of IL2.     

A phase I trial of a new antiemetic drug--clebopride malate--in cisplatin-treated patients.

Clebopride, a new benzamide derivative, has, in common with the other members of this group, antidopaminergic activity. In animals, its therapeutic ratio is superior to that of metoclopramide at doses free of side effects associated with hyperprolactinemia and extrapyramidal symptoms. The present study was designed to define the maximum tolerated dose (MTD) in patients with advanced histologically-proven cancer, treated with cisplatin at a dose of greater than 50 mg/m2. Most of them were pretreated and refractory to standard antiemetics. Clebopride was started at a dosage of 0.10 mg/kg in a group of 6 patients and escalated by 0.2 mg at each dose level. A total of 30 patients were included. Side effects include somnolence, diarrhea and extrapyramidal-like symptoms. The latter occurred at almost all dose levels in 14% of the cycles and limited continuation of the study. Activity in this group of patients was encouraging but, considering the rate of extrapyramidal symptoms, further dose escalation is not indicated and activity at lower, nontoxic levels should be investigated.     

Neocarzinostatin: a phase I clinical trial with five-day intermittent and continuous infusions.

Neocarzinostatin, a polypeptide antibiotic, was administered by both continuous and intermittent intravenous infusion to 76 patients with a variety of malignant diseases. Doses ranged from 500 to 6500 units/m2 X 5 days. With levels greater than or equal to 1800 units/m2, bone marrow suppression (particularly thrombocytopenia) was the dose-limiting toxicity. Delayed bone marrow recovery was less dose-dependent and occurred in 58% of initial treatment courses in solid tumor patients. Allergic reactions were more frequent with intermittent than with continuous infusions (20% vs. 2% of courses). No complete or partial remissions were observed among solid tumor patients although clinical improvement was noted in one patient with mycosis fungoides and one patient with multiple myeloma. One complete and two partial remissions were noted among 21 patients with acute leukemia. There was one complete remission in a patient with chronic leukemia. Leukemic patients on intermittent therapy evidenced greater change in bone marrow cellularity than those treated by continuous infusion. Although neocarzinostatin has some activity in the treatment of acute leukemia, continuous infusion offers no advantage over intermittent therapy.     

Clinical pharmacokinetics of irinotecan and its metabolites: a population analysis.

PURPOSE: To build population pharmacokinetic (PK) models for irinotecan (CPT-11) and its currently identified metabolites. PATIENTS AND METHODS: Seventy cancer patients (24 women and 46 men) received 90-minute intravenous infusions of CPT-11 in the dose range of 175 to 300 mg/m(2). The PK models were developed to describe plasma concentration profiles of the lactone and carboxylate forms of CPT-11 and 7-ethyl-10-hydroxycamptothecin (SN-38) and the total forms of SN-38 glucuronide (SN-38G), 7-ethyl-10-[4-N-(5-aminopentanoic acid)-1-piperidino]-carbonyloxycamptothecin (APC), and 7-ethyl-10-[4-amino-1-piperidino]-carbonyloxycamptothecin (NPC) by using NONMEM. RESULTS: The interconversion between the lactone and carboxylate forms of CPT-11 was relatively rapid, with an equilibration half-life of 14 minutes in the central compartment and hydrolysis occurring at a rate five times faster than lactonization. The same interconversion also occurred in peripheral compartments. CPT-11 lactone had extensive tissue distribution (steady-state volume of distribution [Vss], 445 L) compared with the carboxylate form (Vss, 78 L, excluding peripherally formed CPT-11 carboxylate). Clearance (CL) was higher for the lactone form (74.3 L/h) compared with the carboxylate form (12.3 L/h). During metabolite data modeling, goodness of fit indicated a preference of SN-38 and NPC to be formed out of the lactone form of CPT-11, whereas APC could be modeled best by presuming formation from CPT-11 carboxylate. The interconversion between SN-38 lactone and carboxylate was slower than that of CPT-11, with the lactone form dominating at equilibrium. The CLs for SN-38 lactone and carboxylate were similar, but the lactone form had more extensive tissue distribution. CONCLUSION: Plasma data of CPT-11 and metabolites could be adequately described by this compartmental model, which may be useful in predicting the time courses, including interindividual variability, of all characterized substances after intravenous administrations of CPT-11.     

Phase I trial of trimetrexate glucuronate on a five-day bolus schedule: clinical pharmacology and pharmacodynamics

Trimetrexate glucuronate (TMTX), a nonclassical folate antagonist, has been evaluated clinically on several schedules. We have studied TMTX administered as an iv bolus for 5 consecutive days every 3 weeks in 35 patients with advanced solid tumors. Drug was given at doses ranging from 7.6 to 18.8 mg/m2. The maximal tolerated dose was 13.1 mg/m2 per day x 5 for patients without prior myelotoxic treatment and 7.6 mg/m2 per day x 5 for previously treated patients. Because of wide individual differences in drug tolerance, dose escalation in 25% increments is recommended for patients not experiencing toxic effects. The dose-limiting toxicity was neutropenia. Rash and mucositis were also significant. TMTX concentrations were measured 1 and 24 hours after each dose, and the data were fit by use of a one-compartment pharmacokinetic model. With this simplified sampling and modeling scheme, the mean total body clearance (+/- SD) of trimetrexate was 31 +/- 20 mL/min per m2 and the volume of distribution was 13 +/- 7 L/m2. Mean plasma concentrations 1 hour after a dose were 1.12, 2.43, 3.33, and 3.25 mumol/L at 7.6, 9.1, 10.9, and 13.1 mg/m2, respectively. The mean TMTX concentration (+/- SD) 24 hours after a dose was 114 +/- 87 nmol/L. The mean area under the concentration-versus-time curve at 13.1 mg/m2 was 2,266 mumol.min/L. The drug concentration 1 hour after the first dose and the area under the concentration-versus-time curve were highly correlated with leukopenia and thrombocytopenia (r = .6 and .65 and P = .0007 and .0001, respectively). The maximal tolerated dose on the daily x 5 schedule was 30% of the dose tolerated on an iv bolus schedule. The choice of drug schedule for clinical trials when murine and human pharmacokinetics differ is discussed. Phase II trials are under way with both the iv bolus and the daily x 5 schedules.     

A phase I clinical trial of didemnin B

Didemnin B is a depsipeptide extracted from the marine tunicate Trididemnin cyanophorum. This agent is a potent inhibitor of L1210 growth in vitro and has activity against murine B16 melanoma, P388 leukemia, and M5076 sarcoma in vivo. The results of preclinical toxicologic tests demonstrated abnormalities in clotting parameters thought to be secondary to drug-induced liver dysfunction. Thirty-five patients with advanced cancer received didemnin B according to a 5-day bolus schedule with dose levels ranging from 0.03 to 2.00 mg/m2/d. The dose-limiting toxicity was nausea and vomiting. Sporadic elevation of the hepatic enzyme level occurred but was not dose limiting. Two patients had anaphylactic symptoms possibly related to the 5% polyoxyethylated castor oil (Cremophor EL, BASF, Ludwigshafen, Germany) vehicle during the drug infusion. Clinical bleeding was not observed and myelosuppression was not significant. No partial or complete tumor responses were seen. The recommended Phase II dose for the 5-day schedule is 1.6 mg/m2/d.     

A phase I trial of trimetrexate glucuronate (NSC 352122) given every 3 weeks: clinical pharmacology and pharmacodynamics

Summary Trimetrexate glucuronate (TMTX), a non-classic folate antagonist, has been evaluated clinically on several schedules. We studied TMTX given as an i.v. bolus over 5–30 min every 3 weeks in 44 patients with advanced solid tumors; it was given at doses ranging from 20 to 275 mg/m². The maximal tolerated dose (MTD) on this schedule is 220 mg/m², which we also recommend as a starting dose for phase II studies in patients without extensive prior therapy. Because of wide individual differences in drug tolerance, dose escalation in 25% increments is recommended for non-toxic patients. The principal dose-limiting toxicity was myelosuppression, although in some patients a flu-like syndrome precluded dose escalation. Significant rash and mucositis also frequently occurred in toxic patients. TMTX plasma concentrations were measured after the first dose and the data were fit by two-or three-compartment mammillary pharmacokinetic models. The TMTX clearance rate was 36.5±21 ml/min per m² and did not change with dose; non-linearities with increasing dose were apparent in the steady-state volume of distribution (V_SS) and in the terminal disposition half-life (t 1/2). The difference between pre-treatment and nadir leucocyte counts was correlated with TMTX dose (r=0.58; P=0.0006) and with the area under the concentration vs time curve (AUC) (r=0.41; P=0.02). Pre-treatment plasma albumin concentrations correlated weakly with the nadir white blood count (r=-0.36; P=0.047). Optimal schedules for the administration of TMTX have not been established and phase II trials using both bolus and daily x5 schedules are under way.Supported in part by NCI Contract, NCI-CM-47663