Your search keyword '"Joseph Tomaszewski"' showing total 7 results

1. Supplementary Data from NCI Comparative Oncology Program Testing of Non-Camptothecin Indenoisoquinoline Topoisomerase I Inhibitors in Naturally Occurring Canine Lymphoma

Author

Yves Pommier, James H. Doroshow, Jan H. Beumer, Julie Eiseman, Miguel Muzzio, Julianne L. Holleran, Joseph Tomaszewski, Heather Wilson-Robles, Nicole Northup, Kelvin Kow, Timothy Fan, Michael Kent, E.J. Ehrhart, Lisa Barber, Jeffrey N. Bryan, Michael Childress, David Vail, Erika Krick, William Kisseberth, Cheryl London, Kristen Weishaar, Sue Lana, Melissa Paoloni, Chand Khanna, Ralph E. Parchment, Robert J. Kinders, Jiuping Ji, Joseph M. Covey, Amy LeBlanc, Christina Mazcko, and Jenna H. Burton

Abstract

All supplementary files together

Published

2023

2. Supplementary Data from Development of a Validated Immunofluorescence Assay for γH2AX as a Pharmacodynamic Marker of Topoisomerase I Inhibitor Activity

Author

James H. Doroshow, Joseph Tomaszewski, Ralph E. Parchment, Yvonne A. Evrard, Larry Rubinstein, Yves Pommier, William M. Bonner, Brian Tabb, Jiuping Ji, Scott Lawrence, Melinda Hollingshead, and Robert J. Kinders

Abstract

Supplementary Figures S1-S6; Supplementary Data; Supplementary Tables S1-S3.

Published

2023

3. Data from Development of a Validated Immunofluorescence Assay for γH2AX as a Pharmacodynamic Marker of Topoisomerase I Inhibitor Activity

Author

James H. Doroshow, Joseph Tomaszewski, Ralph E. Parchment, Yvonne A. Evrard, Larry Rubinstein, Yves Pommier, William M. Bonner, Brian Tabb, Jiuping Ji, Scott Lawrence, Melinda Hollingshead, and Robert J. Kinders

Abstract

Purpose: Phosphorylated histone H2AX (γH2AX) serves as a biomarker for formation of DNA double-strand break repair complexes. A quantitative pharmacodynamic immunofluorescence assay for γH2AX was developed, validated, and tested in human tumor xenograft models with the use of clinically relevant procedures.Experimental Design: The γH2AX immunofluorescence assay uses a novel data quantitation and image processing algorithm to determine the extent of nuclear-specific γH2AX staining in tumor needle biopsies and hair follicles collected from mice bearing topotecan-responsive A375 xenografts. After method validation with the topoisomerase I (Top1) inhibitor topotecan, the assay was used to compare pharmacodynamic properties of three structurally related indenoisoquinoline Top1 inhibitors.Results: γH2AX response to topotecan was quantified over a 60-fold dose range (0.016-1.0 times the murine single-dose maximum tolerated dose), and significant pharmacodynamic response was measured at the mouse equivalent of the 1.5 mg/m2 clinical dose as well as the lowest dose tested. Responses were within a time window amenable for biopsy collection in clinical trials. These studies enabled characterization of dose and time responses for three indenoisoquinolines, resulting in selection of two for clinical evaluation. γH2AX response to Top1 inhibitors in hair follicles was also observable above a minimal dose threshold.Conclusions: Our γH2AX assay is sufficiently accurate and sensitive to quantify γH2AX in tumor samples and will be used in correlative studies of two indenoisoquinolines in a phase I clinical trial at the National Cancer Institute. Data suggest that hair follicles may potentially serve as a surrogate tissue to evaluate tumor γH2AX response to Top1 inhibitors. Clin Cancer Res; 16(22); 5447–57. ©2010 AACR.

Published

2023

4. Data from NCI Comparative Oncology Program Testing of Non-Camptothecin Indenoisoquinoline Topoisomerase I Inhibitors in Naturally Occurring Canine Lymphoma

Author

Yves Pommier, James H. Doroshow, Jan H. Beumer, Julie Eiseman, Miguel Muzzio, Julianne L. Holleran, Joseph Tomaszewski, Heather Wilson-Robles, Nicole Northup, Kelvin Kow, Timothy Fan, Michael Kent, E.J. Ehrhart, Lisa Barber, Jeffrey N. Bryan, Michael Childress, David Vail, Erika Krick, William Kisseberth, Cheryl London, Kristen Weishaar, Sue Lana, Melissa Paoloni, Chand Khanna, Ralph E. Parchment, Robert J. Kinders, Jiuping Ji, Joseph M. Covey, Amy LeBlanc, Christina Mazcko, and Jenna H. Burton

Abstract

Purpose:Only one chemical class of topoisomerase I (TOP1) inhibitors is FDA approved, the camptothecins with irinotecan and topotecan widely used. Because of their limitations (chemical instability, drug efflux-mediated resistance, and diarrhea), novel TOP1 inhibitors are warranted. Indenoisoquinoline non-camptothecin topoisomerase I (TOP1) inhibitors overcome chemical instability and drug resistance that limit camptothecin use. Three indenoisoquinolines, LMP400 (indotecan), LMP776 (indimitecan), and LMP744, were examined in a phase I study for lymphoma-bearing dogs to evaluate differential efficacy, pharmacodynamics, toxicology, and pharmacokinetics.Experimental Design:Eighty-four client-owned dogs with lymphomas were enrolled in dose-escalation cohorts for each indenoisoquinoline, with an expansion phase for LMP744. Efficacy, tolerability, pharmacokinetics, and target engagement were determined.Results:The MTDs were 17.5 mg/m2 for LMP 776 and 100 mg/m2 for LMP744; bone marrow toxicity was dose-limiting; up to 65 mg/m2 LMP400 was well-tolerated and MTD was not reached. None of the drugs induced notable diarrhea. Sustained tumor accumulation was observed for LMP744; γH2AX induction was demonstrated in tumors 2 and 6 hours after treatment; a decrease in TOP1 protein was observed in most lymphoma samples across all compounds and dose levels, which is consistent with the fact that tumor response was also observed at low doses LMP744. Objective responses were documented for all indenoisoquinolines; efficacy (13/19 dogs) was greatest for LMP744.Conclusions:These results demonstrate proof-of-mechanism for indenoisoquinoline TOP1 inhibitors supporting their further clinical development. They also highlight the value of the NCI Comparative Oncology Program (https://ccr.cancer.gov/Comparative-Oncology-Program) for evaluating novel therapies in immunocompetent pets with cancers.

Published

2023

5. Guidelines for the development and incorporation of biomarker studies in early clinical trials of novel agents

Author

Janet E, Dancey, Kevin K, Dobbin, Susan, Groshen, J Milburn, Jessup, Andrew H, Hruszkewycz, Maria, Koehler, Ralph, Parchment, Mark J, Ratain, Lalitha K, Shankar, Walter M, Stadler, Lawrence D, True, Amy, Gravell, Michael R, Grever, and Joseph, Tomaszewski

Subjects

Research design, Cancer Research, medicine.medical_specialty, Pathology, Endpoint Determination, MEDLINE, Neoplasms, Biomarkers, Tumor, Medicine, Humans, Intensive care medicine, Pharmacy and Therapeutics Committee, Clinical Trials as Topic, Task force, business.industry, Drugs, Investigational, National Cancer Institute (U.S.), United States, Clinical trial, Oncology, Drug development, Novel agents, Research Design, Biomarker (medicine), Sample collection, Safety, business

Abstract

The National Cancer Institute (NCI) Investigational Drug Steering Committee (IDSC) charged the Biomarker Task Force to develop recommendations to improve the decisions about incorporation of biomarker studies in early investigational drug trials. The Task Force members reviewed biomarker trials, the peer-reviewed literature, NCI and U.S. Food and Drug Administration (FDA) guidance documents, and conducted a survey of investigators to determine practices and challenges to executing biomarker studies in clinical trials of new drugs in early development. This document provides standard definitions and categories of biomarkers, and lists recommendations to sponsors and investigators for biomarker incorporation into such trials. Our recommendations for sponsors focus on the identification and prioritization of biomarkers and assays, the coordination of activities for the development and use of assays, and for operational activities. We also provide recommendations for investigators developing clinical trials with biomarker studies for scientific rationale, assay criteria, trial design, and analysis. The incorporation of biomarker studies into early drug trials is complex. Thus the decision to proceed with studies of biomarkers should be based on balancing the strength of science, assay robustness, feasibility, and resources with the burden of proper sample collection on the patient and potential impact of the results on drug development. The Task Force provides these guidelines in the hopes that improvements in biomarker studies will enhance the efficiency of investigational drug development. Clin Cancer Res; 16(6); 1745–55

Published

2010

6. CONTRIBUTORS

Author

Eric Ofori Aboagye, Wynne Aherne, Bruce C. Baguley, Alex Bridges, Angelika M. Burger, Jian Cao, Joseph M. Covey, Thomas Davis, Stuart Decker, Maja J.A. de Jonge, William A. Denny, Susan J. Donohue, Nathalie Droin, Patrick Ducoroy, David Ferry, Heinz-Herbert Fiebig, Rodolphe Filomenko, David W. Fry, Michelle Garrett, Cherry L. Herald, Kevin O. Hicks, Fiona Hogan, Robert C. Jackson, David J. Kerr, Kurt W. Kohn, Elianne Koop, Alan Kraker, W.R. Leopold, Walter J. Loos, Ted McDonald, Christopher J. Molloy, Ion Niculescu-Duvac, George R. Pettit, Stephanie Plenchette, Yves Pommier, Patricia M. Price, Cédric Rebe, Julie K. Rhie, Azeem Saleem, Karen M. Schweikart, Judith Sebolt-Leopold, Sachdev Sidhu, Adaline C. Smith, Eric Solary, Olivier Sordet, Alex Sparreboom, Caroline J. Springer, Mario Sznol, Joseph Tomaszewski, Akihiro Tomida, Takashi Tsuruo, Jaap Verweij, Emile E. Voest, Gregory A. Weiss, William R. Wilson, Paul Workman, Anne Wotawa, Qiang Yu, and Stanley Zucker

Published

2002

7. Pharmacokinetics and pharmacodynamics of Phor21-βCG(ala), a lytic peptide conjugate.

Author

Lee Jia, Patricia E. Noker, Gary A. Piazza, Carola Leuschner, William Hansel, Gregory S. Gorman, Lori U. Coward, and Joseph Tomaszewski

Subjects

PHARMACOKINETICS, CHORIONIC gonadotropins, GLYCOPROTEIN hormones, CANCER cells

Abstract

Phor21-βCG(ala), a 36-amino acid peptide comprised of a lytic peptide (Phor21) conjugated to a modified 15-amino acid segment of the β-chain of chorionic gonadotropin (βCG(ala)), selectively kills cancer cells that over-express luteinizing hormone/chorionic gonadotropin (LH/CG) receptors by disrupting cellular membrane structure. These studies were designed to further characterize its in-vitro inhibition and in-vivo destruction of prostate cancer cells, biostability and pharmacokinetics to determine its pharmacokinetic and pharmacodynamic profile. Inhibitory effects of Phor21-βCG(ala) were tested in PC-3 and Caco-2 cells as well as in nude mice bearing PC-3 cells transfected with the luciferase gene (PC-3.luc). Plasma stability, protease hydrolysis and pharmacokinetics of Phor21-βCG(ala) were measured by using liquid chromatography mass spectrometry (LC/MS/MS). Phor21-βCG(ala) selectively inhibited proliferation in-vitro and in-vivo metastases of PC-3 cells. Phor21-βCG(ala) was relatively stable in mouse, rat, dog and human plasma. Its degradation was partially due to protease hydrolysis and thermodynamic catalysis. Intravenous administration of Phor21-βCG(ala) showed its blood Cmax and AUC0→∞ around the in-vitro effective levels. In the tested rodents, Phor21-βCG(ala) displayed a moderate volume of distribution at steady state (Vdss) and slow clearance (Cl) in the rodents. In conclusion, Phor21-βCG(ala) displayed promising in-vitro and in-vivo anti-cancer activity with favourable pharmacokinetics, and may offer a novel approach to metastatic cancer chemotherapy. [ABSTRACT FROM AUTHOR]

Published

2008