Your search keyword '"Marc Gander"' showing total 7 results

1. Sequential administration of temozolomide and fotemustine: Depletion of O6-alkyl guanine-DNA transferase in blood lymphocytes and in tumours

Author

Serge Leyvraz, D. Liénard, F. Shen, M. Bonfanti, Catia Marzolini, L. Perey, Marc Gander, Maurizio D'Incalci, Ferdy J. Lejeune, Gennaro Colella, Jérôme Biollaz, D. Yarosh, Laurent-Arthur Decosterd, and M. Belanich

Subjects

Adult, Male, Dacarbazine, medicine.medical_treatment, Pharmacology, Drug Administration Schedule, Nitrosourea Compounds, Adult Aged Antineoplastic Combined Chemotherapy Protocols/*administration & dosage/adverse effects/pharmacokinetics/pharmacology Brain Neoplasms/blood/drug therapy/enzymology Dacarbazine/administration & dosage/adverse effects/analogs & derivatives Dose-Response Relationship, Drug Drug Administration Schedule Drug Resistance, Neoplasm Female Glioma/blood/drug therapy/enzymology Humans Lymphocytes/*enzymology Male Melanoma/blood/drug therapy/enzymology Middle Aged Nitrosourea Compounds/administration & dosage/adverse effects O(6)-Methylguanine-DNA Methyltransferase/*blood Organophosphorus Compounds/administration & dosage/adverse effects, O(6)-Methylguanine-DNA Methyltransferase, Organophosphorus Compounds, Pharmacokinetics, Oral administration, Antineoplastic Combined Chemotherapy Protocols, Temozolomide, medicine, Humans, Lymphocytes, Melanoma, Aged, Chemotherapy, Dose-Response Relationship, Drug, Brain Neoplasms, business.industry, Glioma, Hematology, Middle Aged, Drug interaction, Oncology, Drug Resistance, Neoplasm, Toxicity, Fotemustine, Female, business, medicine.drug

Abstract

Summary Background: The DNA repair protein O 6 -alkylguanine-DNA alkyl transferase (AT) mediates resistance to chloroethylnitrosoureas. Agents depleting AT such as DTIC and its new analogue temozolomide (TMZ) can reverse resistance to chloroethylnitrosoureas. We report the results of a dose finding study of TMZ in association with fotemustine. Patients and methods: Twenty-four patients with metastatic melanoma or recurrent glioma were treated with escalating dose of oral or intravenous TMZ ranging from 300 to 700 mg/m 2 , divided over two days. Fotemustine 100 mg/m 2 was given intravenously on day 2, 4 hours after TMZ. AT depletion was measured in peripheral blood mononuclear cells (PBMCs) and in selected cases in melanoma metastases and was compared to TMZ pharmacokinetics. Results: The maximum tolerated dose (MTD) of TMZ was 400 mg/m 2 (200 mg/m 2 /d) when associated with fotemustine the 2nd day with myelosuppression as dose limiting toxicity. The decrease of AT level in PBMCs was progressive and reached 34% of pretreatment values on day 2. There was however wide interindividual variability. AT reduction was neither dose nor route dependent and did not appear to be related to TMZ systemic exposure (AUC). In the same patients, AT depletion in tumour did not correlate with the decrease of AT observed in PBMCs. Conclusions: PBMCs may not be used as a surrogate of tumour for AT depletion. Further study should concentrate on the pharmacokinetic pharmacodynamic relationship in tumour to provide the basis for individually tailored therapy.

Published

2017

2. Intracellular localization and intercellular heterogeneity of the human DNA repair protein O 6 -methylguanine-DNA methyltransferase

Author

Benjamin F. L. Li, Michael Belanich, Daniel B. Yarosh, Lori Alas, Terri Randall, Marc L. Citron, S. Clifford Schold, M. Eileen Dolan, Marc Gander, White A, Jeannie Kibitel, Monica A. Pastor, Ferdy Lejeune, and Patricia Wasserman

Subjects

Cytoplasm, Cancer Research, Guanine, Lung Neoplasms, Methyltransferase, DNA Repair, Transplantation, Heterologous, Mice, Nude, Biology, Toxicology, Immunofluorescence, Mice, O(6)-Methylguanine-DNA Methyltransferase, chemistry.chemical_compound, Image Processing, Computer-Assisted, Temozolomide, medicine, Animals, Humans, Pharmacology (medical), Enzyme Inhibitors, Fluorescent Antibody Technique, Indirect, Melanoma, neoplasms, Cell Nucleus, Pharmacology, Carmustine, medicine.diagnostic_test, O-6-methylguanine-DNA methyltransferase, Methyltransferases, O6-Benzylguanine, Molecular biology, digestive system diseases, Cell Compartmentation, Dacarbazine, Oncology, chemistry, Cell culture, Neoplasm Transplantation, DNA, medicine.drug

Abstract

O(6)-Methylguanine-DNA methyltransferase (MGMT) is a DNA repair protein that removes alkyl adducts from DNA and may be important in tumor resistance to alkylation chemotherapy. MGMT was visualized in human cells and tumor tissues with monoclonal antibodies against MGMT and immunofluorescence microscopy, and fluorescent signals were quantified by digital image analysis. MGMT was found both in the cytoplasm and the nucleus, and in either locale the protein reacts with alkylated DNA bases and becomes inactivated and lost from the cell. Cell lines in culture and xenografts showed a broad normal distribution of nuclear MGMT levels, but human brain tumors often showed a skewed distribution, with a significant fraction of cells with high levels of MGMT. O(6)-Benzylguanine, a suicide substrate inactivator for MGMT activity, reduced MGMT in human cells and in a mouse xenograft to levels undetectable by antibody assay 1 h post-treatment. In melanoma specimens taken from a patient 3 h post-treatment with temozolomide, MGMT levels were reduced by 70%. This quantitative immunofluorescence assay can be used to monitor MGMT and it depletion in human tumors to improve the use of alkylating agents in cancer chemotherapy.

Published

1996

3. Determination of temozolomide in human plasma and urine by high-performance liquid chromatography after solid-phase extraction

Author

Marc Gander, Serge Leyvraz, Ferdy Lejeune, F. Shen, Jérôme Biollaz, and Laurent A. Decosterd

Subjects

Chromatography, Chemistry, Elution, Extraction (chemistry), Antineoplastic Agents, Pilot Projects, General Chemistry, Urine, Hydrogen-Ion Concentration, Sensitivity and Specificity, High-performance liquid chromatography, Dacarbazine, Matrix (chemical analysis), Acetic acid, chemistry.chemical_compound, Drug Stability, Temozolomide, Humans, Solid phase extraction, Quantitative analysis (chemistry), Chromatography, High Pressure Liquid

Abstract

As a part of a pilot clinical study, a high-performance reversed-phase liquid chromatography analysis was developed to quantify temozolomide in plasma and urine of patients undergoing a chemotherapy cycle with temozolomide. All samples were immediately stabilized with 1 M HCl (1 + 10 of biological sample), frozen and stored at -20 degrees C prior to analysis. The clean-up procedure involved a solid-phase extraction (SPE) of clinical sample (100 microliters) on a 100-mg C18-endcapped cartridge. Matrix components were eliminated with 750 microliters of 0.5% acetic acid (AcOH). Temozolomide was subsequently eluted with 1250 microliters of methanol (MeOH). The resulting eluate was evaporated under nitrogen at RT and reconstituted in 200 microliters of 0.5% AcOH and subjected to HPLC analysis on an ODS-column (MeOH-0.5% AcOH, 10:90) with UV detection at 330 nm. The calibration curves were linear over the concentration range 0.4-20 micrograms/ml and 2-150 micrograms/ml for plasma and urine, respectively. The extraction recovery of temozolomide was 86-90% from plasma and 103-105% from urine over the range of concentrations considered. The stability of temozolomide was studied in vitro in buffered solutions at RT, and in plasma and urine at 37 degrees C. An acidic pH (5-6) should be maintained throughout the collection, the processing and the analysis of the sample to preserve the integrity of the drug. The method reported here was validated for use in a clinical study of temozolomide for the treatment of metastatic melanoma and high grade glioma.

Published

1995

4. Current and future developments in the use of temozolomide for the treatment of brain tumours

Author

Roger Stupp, Edward S. Newlands, Marc Gander, and Serge Leyvraz

Subjects

Oncology, Drug, medicine.medical_specialty, media_common.quotation_subject, Dacarbazine, medicine.medical_treatment, Internal medicine, Glioma, medicine, Temozolomide, Combined Modality Therapy, Humans, Antineoplastic Agents, Alkylating, media_common, Chemotherapy, business.industry, Brain Neoplasms, medicine.disease, Surgery, Radiation therapy, Drug Resistance, Neoplasm, Concomitant, Neoplasm Recurrence, Local, business, medicine.drug

Abstract

Brain tumours comprise only 2% of all adult cancers, but they are among the most debilitating malignant diseases. Temozolomide, an alkylating agent that can be administered orally, has been approved for the treatment of recurrent malignant glioma on a daily schedule for 5-day cycles. Continuous administration schedules with a higher dose intensity are being explored, but an improvement in efficiency remains to be shown. The benefit from temozolomide given as a single agent in recurrent disease will be several weeks at best. This drug is therefore now undergoing clinical testing as neoadjuvant chemotherapy or with concomitant radiotherapy in patients with newly diagnosed glioma. Several phase I trials are investigating the combination of temozolomide with other agents active against brain tumours. This review briefly summarises the pharmacological background and clinical development of temozolomide and focuses on current and future clinical exploration of this drug for the treatment of brain tumours.

Published

2002

5. Pharmacokinetics of temozolomide in association with fotemustine in malignant melanoma and malignant glioma patients: comparison of oral, intravenous, and hepatic intra-arterial administration

Author

Marc Gander, Catia Marzolini, Fei Shen, Thierry Buclin, Laurent A. Decosterd, Ferdy Lejeune, Jérôme Biollaz, Serge Leyvraz, and J. Bauer

Subjects

Adult, Male, Cancer Research, Dacarbazine, Administration, Oral, Pharmacology, Toxicology, Nitrosourea Compounds, Hepatic Artery, Organophosphorus Compounds, Pharmacokinetics, Oral administration, Antineoplastic Combined Chemotherapy Protocols, Temozolomide, Medicine, Humans, Infusions, Intra-Arterial, Pharmacology (medical), Infusions, Intravenous, Melanoma, Aged, Volume of distribution, business.industry, Brain Neoplasms, Area under the curve, Glioma, Middle Aged, Bioavailability, Oncology, Blood-Brain Barrier, Anesthesia, Fotemustine, Female, business, Alkyltransferase, medicine.drug

Abstract

Purpose: Depletion of the DNA repair enzyme O6-alkylguanine-DNA alkyltransferase (AT) has been shown to increase tumor sensitivity to chloroethylnitrosoureas. Temozolomide (TMZ), an analogue of dacarbazine, can deplete AT, suggesting that it may be used to sensitize tumors to chloroethylnitrosoureas. However, the influence of nitrosoureas on the pharmacokinetics of TMZ is unknown, and a pilot study was performed to assess the pharmacokinetics of TMZ given via, various routes to 29 patients (27 malignant melanomas, 2 gliomas) with or without sequential administration of i.v. fotemustine. Methods: On day 1, TMZ was given intravenously (i.v.), orally (p.o.), or by intrahepatic arterial infusion (h.i.a.) at four ascending dose levels (150 to 350 mg/m2 per day). On day 2 the same dose of TMZ was given by the same route (or by another route in six patients for determination of its bioavailability), followed 4 h later by fotemustine infusion at 100 mg/m2. Plasma and urinary levels of TMZ were determined on days 1 and 2 by high-performance liquid chromatography after solid-phase extraction. Results: The pharmacokinetics of i.v. TMZ appeared linear, with the area under the curve (AUC) increasing in proportion to the dose expressed in milligrams per square meter (r = 0.86 and 0.91 for days 1 and 2, respectively). The clearance after i.v. administration was 220 ± 48 and 241 ± 39 ml/min on days 1 and 2, respectively. The apparent clearance after p.o. and h.i.a. administration was 290 ± 86 and 344 ± 77 ml/min, respectively. The volume of distribution of TMZ after i.v., p.o., and h.i.a. administration was 0.4, 0.6, and 0.6 l/kg on day 1 and 0.5, 0.5, and 0.6 l/kg on day 2, respectively. The absolute bioavailability of TMZ was 0.96 ± 0.1, regardless of the sequence of the i.v.-p.o. or p.o.-i.v. administration, confirming that TMZ is not subject to a marked first-pass effect. A comparison of TMZ pharmacokinetics after i.v. and h.i.a. treatment at the same infusion rate revealed little evidence of hepatic extraction of TMZ. However, the systemic exposure to TMZ (AUC) appeared to decrease at a lower infusion rate. TMZ excreted unchanged in the urine accounted for 5.9 ± 3.4% of the dose, with low within-patient and high interpatient variability. TMZ crosses the blood-brain barrier and the concentration detected in CSF amounted to 9%, 28%, and 29% of the corresponding plasma levels (three patients). The equilibrium between plasma and ascitic fluid was reached after 2 h (assessed in one patient). Conclusion: The sequential administration of fotemustine at 4 h after TMZ treatment had no clinically relevant influence on the pharmacokinetics of TMZ. The potential clinical effect of TMZ given by h.i.a. or by locoregional administration has yet to be established, as has the impact of the infusion duration on patients' tolerance and response rate.

Published

1998

6. A rare case of prednimustine-induced myoclonus

Author

Marc Gander, Serge Leyvraz, and Christian Monnerat

Subjects

Cancer Research, medicine.medical_specialty, business.industry, Prednimustine, Dermatology, chemistry.chemical_compound, Oncology, chemistry, Rare case, medicine, Aged Antineoplastic Agents, Alkylating/*adverse effects Antineoplastic Combined Chemotherapy Protocols/adverse effects Female Hodgkin Disease/*drug therapy/metabolism Humans Mitochondria/metabolism Myoclonus/*chemically induced/metabolism Phosphorylation Prednimustine/*adverse effects, medicine.symptom, business, Myoclonus

Published

1997

7. Association of temozolomide (TMZ) and fotemustine (FOTE) in metastatic melanoma. An approach based on 06 alkylguanine-DNA alkyl transferase (AT) depletion

Author

M. Bonfanti, F. Shen, Serge Leyvraz, L. Perey, Marc Gander, G. Collela, Ferdy J. Lejeune, Jérôme Biollaz, Laurent-Arthur Decosterd, and M. DʼIncalci

Subjects

chemistry.chemical_classification, Cancer Research, Temozolomide, Metastatic melanoma, business.industry, Dermatology, chemistry.chemical_compound, Oncology, chemistry, medicine, Cancer research, Fotemustine, Transferase, business, Alkyl, DNA, medicine.drug

Published

1995