Richard H. Wheeler

Phase I trial of the chimeric anti-GD2 monoclonal antibody ch14.18 in patients with malignant melanoma

The chimeric monoclonal anti-GD2 antibody ch14.18 is made up of the variable region of the murine anti-GD2 antibody 14.18 (or its IgG2a switch variant 14G2a) and the constant region of human IgG1k. Ch14.18 mediates antibody dependent cytotoxicity and complement dependent lysis in vitro. In a phase I trial, 13 patients with metastatic melanoma received ch14.18 as a single dose of 5-100 mg. Therapy was associated with an infusion-related abdominal/pelvic pain syndrome, which required intravenous morphine for control. The pharmacokinetics of ch14.18 best fit a two-compartment model with a T1/2 alpha of 24 +/- 1 hr and a T1/2 beta of 181 +/- 73 hr. Eight of 13 patients developed a weak-modest antibody response directed at the variable region of ch14.18. Clinical antitumor responses were not observed at the doses employed in this study. However, patients receiving greater than 45 mg of ch14.18 had antibody detectable on tumor cells analyzed by fluorescent activated cell sorter. Further modification of the therapeutic regime employing larger doses and frequent administration of ch14.18 are planned.

A phase II trial of murine monoclonal antibody 17-1A and interferon-γ: Clinical and immunological data

SummaryA group of 15 patients with metastatic colorectal adenocarcinoma received a combination of interferon γ (0.1 mg/m2, days 1–15) and the murine monoclonal antibody 17-1A (400 mg, days 5, 7, 9 and 12). The treatment was tolerated with minimal toxicity. Of the 14 evaluable patients, 13 developed human antibody to murine 17-1A, with 11 patients demonstrating antibody to the variable region of 17-1A (anti-idiotype). Antibody to the variable region was inhibited by 17-1A but not by mouse immunoglobulin. Sera from patients with substantial anti-idiotype reactivity were capable of inhibiting the binding of murine 17-1A to antigen expressing LS174-T cells thus indicating the presence of antibody directed against the 17-1A combining site (mirror-image anti-idiotype). The median survival of the whole group was 56 weeks and there was no correlation between clinical response/survival and the development of anti-idiotype antibody.

Tumor Associated Glycoprotein-72 is Highly Expressed in Prostatic Adenocarcinomas

We examined the expression of two well-characterized oncofetal antigens, the tumor associated glycoprotein-72 (TAG-72) and carcinoembryonic antigen (CEA), in malignant prostatic tissues. Three specific monoclonal antibodies, B72.3, CC49 and CC83, were used to examine the expression of TAG-72. Immunoreactivity was detected in 63% of the malignant specimens using B72.3. CC49 and CC83 were more sensitive than B72.3 in detecting TAG-72 expression. Immunoreactivity was detected in approximately 80% of prostatic adenocarcinomas with CC49 or CC83. The pattern and localization of TAG-72 immunoreactivity were similar for the three antibodies with most immunoreactivity observed within the cytoplasm of malignant cells and within the lumens of malignant glands. TAG-72 immunoreactivity was not detected within benign epithelium or stroma, with the exception of focal epithelial expression in areas of acute prostatitis. The COL-1 antibody to CEA did not detect CEA in benign glands, stroma, or malignant cells of prostate specimens resected for prostatic adenocarcinoma. These results demonstrate that TAG-72, but not CEA, is frequently expressed in prostatic adenocarcinomas.

Pharmacokinetics of a Mouse/Human Chimeric Monoclonal Antibody (C-17-1 A) in Metastatic Adenocarcinoma Patients

The pharmacokinetic characteristics of a mouse/human chimeric monoclonal antibody (C-17-1A) were determined in 10 patients with metastatic adenocarcinoma following the administration of either 10-mg or 40-mg infusions as a single or multiple dose. The administration of single 10-mg (n = 5) and 40-mg (n = 5) doses infused over 1 hr resulted in mean apparent steady-state distribution volumes of 4.13 ± 0.97 and 5.16 ± 1.92 liters, respectively, indicating that C-17-1A appears to distribute throughout the vascular compartment and into limited extracellular fluid volume. The disposition of C-17-1A was adequately characterized using a two-compartment open model with mean distribution half-lives of 15.8 and 18.5 hr and mean elimination half-lives of 90.0 and 97.6 hr for the 10- and 40-mg groups, respectively. A linear relationship was observed between AUC and dose (µLg/kg). The clearance of C-17-1A was correlated linearly with total Ig, IgG, and tumor size. Multiple administration of either 10-mg (n = 3) or 40-mg (n = 3) doses of C-17-1A infused over 1 hr every 14 days for a total of three doses resulted in superimposable mean serum concentration versus time data and consistent mean pharmacokinetic characteristics. These data indicate that C-17-1A exhibits linear, nonsaturable distribution and elimination characteristics in man over the dose range studied (i.e., 130 to 880 µg/kg). The multiple-dose pharmacokinetics of C-17-1A were predictable, indicating a lack of an antibody response to C-17-1A over a period of 42 days. The clearance of C-17-1A exhibited large interindividual variability with significant correlations to circulating IgG levels and tumor size.

A randomized, double‐blind comparison of the antiemetic effect of metoclopramide and lorazepam with or without dexamethasone in patients receiving high‐dose cisplatin

Thirty‐seven patients with advanced incurable malignancies who were receiving their first course of cisplatin (⩾ 90 mg/m2 bolus), alone or in combination with other antineoplastic agents, were entered in this randomized, double‐blind study to determine the antiemetic efficacy of the addition of high‐dose dexamethasone to lorazepam plus metoclopramide. All patients received lorazepam (1.5 mg/m2) and metoclopramide (2.0 mg/kg) intravenously (IV) 30 minutes before cisplatin, with the same dose of metoclopramide repeated 1.5, 3.5, 6.5, and 9.5 hours after the 30‐minute cisplatin infusion. Patients were randomized to receive dexamethasone (0.5 mg/kg) or placebo by slow bolus injection 30 minutes before cisplatin. All patients were hospitalized for 24 hours and evaluated by observation after cisplatin and a patient questionnaire before discharge. Eighteen patients received metoclopramide and lorazepam without dexamethasone: six (33%) reported no vomiting and four (22%) reported no nausea or vomiting. Nineteen patients also received dexamethasone: 14 (74%) had no vomiting and 13 (68%) reported no nausea or vomiting. These differences were statistically significantly different (P = 0.013 and 0.005, respectively). The side effects attributable to the antiemetic regimen were somnolence (100%), confusion (8%), and diarrhea (46%), and were the same in both arms. Dexamethasone significantly improved the antiemetic efficacy of metoclopramide plus lorazepam without adding toxicity. This three‐drug combination gave a high rate of control of acute emesis induced by high‐dose cisplatin.

An efficient multiple-stage procedure for phase II clinical trials that have high response rate objectives.

Gehans two-stage procedure is commonly used in phase II clinical trials to enable one to stop a trial early if the observed response rate in the first stage does not warrant further study and to obtain an adequate estimate of response rate if the trial passes the first stage. However, when the response rate of interest is relatively high (0.3 or more), Gehans procedure can be inefficient since the trial may hardly be halted even though the actual response rate is low. In this paper, we extend Gehans two-stage procedure to a more efficient multiple-stage procedure, which allows early termination of a phase II trial at multiple stages and provides precise estimate of the response rate if the trial reaches the final stage. The proposed multiple-stage procedure is suitable for phase II clinical trials that have high response rate objectives.

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

Abstract 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.

Direct localization comparison of murine and chimeric B72.3 antibodies in patients with colon cancer

To compare radiolocalization of murine B72.3 (m-B72.3) and mouse/human chimeric B72.3 (ch-B72.3) antibodies, five patients with biopsy confirmed adenocarcinoma of the colon received both radiolabeled antibodies 4 or 7 days before laparotomy. Following antibody administration, preoperative gamma camera images showed localization to sites of disease in four of the five patients. Autoradiography of resected specimens showed that both labeled antibodies localized specifically to the tumor with only minimal amounts in normal tissues. Radioactivity from each isotope in biopsy specimens of tumor and normal tissues was quantitated by scintillation gamma counting. Comparison of the percentages of injected activities for each antibody in resected tumor and normal tissue yields tumor to normal tissue radiolocalization ratios of 2.7-13.3 and 0.9-6.3 for murine and chimeric antibodies, respectively. The higher ratios for murine antibody were due to lower normal tissue levels, reflecting its faster clearance from the circulation, whereas the quantitative uptake of labeled antibody was always greater with the chimeric antibody. The chimera to murine antibody ratios in tumor of 1.1-2.7 suggest modest enhancement of tumor localization with chimeric antibody because of its longer half-life.

High-performance liquid chromatographic determination of 9-(3-pyridylmethyl)-9-deazaguanine (BCX-34) in biological fluids

9-(3-Pyridylmethyl)-9-deazaguanine (BCX-34), a new purine nucleoside phosphorylase inhibitor, has selective immunosuppressive activity with potential therapeutic value in T-cell-mediated disease. We now report a sensitive, specific and reproducible method for measurement of 9-(3-pyridylmethyl)-9-deazaguanine in biological fluids using high-performance liquid chromatography (HPLC). 9-(3-Pyridylmethyl)-9-deazaguanine was extracted from plasma using perchloric acid precipitation followed by passage through Sep-Pak C18 cartridges (average extraction efficiency, 64.6%). Standard curves were linear over the range of interest (28-1120 ng/ml in plasma and 200-4000 ng/ml in urine, r2 > 0.999). Within-day and between-day coefficients of variation were less than 8%. The limit of quantitation was 28 ng/ml in plasma and 200 ng/ml in urine. This HPLC method should be useful in future clinical studies with this drug.

Dissociation of cellular proliferation and c-MYC expression by buttercup extract

Buttercup extract (BE), an extract of the buttercup plant (Zanthoriza simplicissima), inhibits RNA and DNA synthesis by HL-60 promyelocytic leukemia cells. Exposure of these cells to 3% BE for 48 hours results in dramatic inhibition of RNA synthesis without loss of cell viability. The effect of BE is partially reversible over 12-24 hours with the level of RNA synthesis returning nearly to control levels during this time period. DNA synthesis is also reversibly inhibited by exposure to BE. Despite the inhibition of RNA synthesis in HL-60 cells, there is no decrease in the level of c-myc mRNA, even at high BE concentrations. The level of gene-specific mRNA for the c-Ha-ras, c-fms, and c-mos genes in these cells also remained constant during exposure to BE. Ribosomal RNA is not degraded during 24 hours of BE treatment in vitro, suggesting that BE does not maintain the relative mRNA level for these genes by selective degradation of other RNA species. The inhibition of RNA and DNA synthesis by BE without a corresponding alteration in the level of expression of the c-myc gene suggests that this agent dissociates c-myc expression and cellular proliferation in these cells.