Recent Results 141 in Cancer Research Managing Editors Ch. Herfarth, Heidelberg· H.-f. Senn, St. Gallen Associate Editors M. Baum, London· V. Diehl, K6ln F. Gutzwiller, Zurich· M.F. Rajewsky, Essen M. Wannenmacher, Heidelberg Founding Editor P. Rentchnik. Geneva Springer Berlin Heidelberg New York Barcelona Budapest Hong Kong London Milan Paris Santa Clara Singapore Tokyo M.-L. Sautter-Bihl H. Bihl M. Wannenmacher (Eds.) Systemic Radiotherapy with Monoclonal Antibodies Options and Problems With 56 Figures and 20 Tables i Springer Priv.-Doz. Dr. Marie-Luise Sautter-Bihl Arztliche Direcktorin der Klinik fUr Strahlentherapie Stadt. Kliniken Karlsruhe MoltkestraBe 14-16 76133 Karlsruhe, Germany Priv.-Doz. Dr. Dr. Heiner Bihl Klinik fur Nuklearmedizin Katharinenhospital Stuttgart Kriegsbergstr. 60 70174 Stuttgart, Germany Professor Dr. Dr. Michael Wannenmacher Radiologische Klinik Abteilung fUr Klinische Radiologie 1m Neuenheimer Feld 400 69120 Heidelberg, Germany ISBN-13:978-3-642-79954-9 e-ISBN-13:978-3-642-79952-5 DOl: 10.1007/978-3-642-79952-5 Library of Congress Cataloging-in· Publication Data. Systemic radiotherapy with monoclonal antibodies: options and problems/H. Bihl, M. Wannenmacher, (eds.). p. cm. - (Recent results in cancer research; 141) Includes bibliographical refer ences and index.lSBN-13:978-3-642-79954-9 (hardcover)1.Cancer-Radioimmuno· therapy. 2. Monoclonal antibodies-Therapeutic use. I. Bih\' H. (Heiner) II. Wannenmacher, M. (Michael) III. Series. [DNLM: 1. Neoplasms-radiotherapy. 2. Radioimmunotherapy-methods. 3. Antibodies, Monoclonal-therapeutic use. 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Cover design: Springer-Verlag, Design & Production Typesetting: Best-set Typesetter Ltd., Hong Kong SPIN: 10426606 19/3134/SPS - 5 4 3 2 1 0 - Printed on acid-free paper Preface Almost a century ago Paul Ehrlich introduced the "magic bullet" concept of targeting therapeutic agents to specific tissues in order to reduce systemic toxicity. Due to the advances in hybridoma technology in the 1980s, monoclonal antibodies (MAbs) with their exquisite affinity to tumor antigens have become powerful tools in the treatment of cancer, especially when linked to therapeutic agents such as radionuclides, drugs, toxins, or enzymes. It can now be expected that such agents will lead to new cancer treatments with high therapeutic success rates. However, there are major problems in developing this therapeutic concept to a routine treatment modality. This is partly due to factors such as heterogenous distribution of tumor antigens, insufficient blood supply of tumors, high interstitial pressure, and the large interstitial space that antibodies have to traverse. This book is focused on the development in radio immunotherapy (RIT) using radio labeled monoclonal antibodies as tumoritoxic agents. This area of research has attracted the interest of clinicians and scientists from many different disciplines. It is now clear that the full potential of RIT can only be realized through the concerted efforts of laboratory scientists (molecular biologists, cell physiologists, chemists, radiation physicists, and biologists) and cancer clinicians in nuclear medicine, radiooncology, and internal oncology. Although it will not be possible to cover all the areas of the current activities in RIT research in this one volume, we hope our selection of topics will give a taste of the exciting possibilities this new cancer therapy can provide. The purpose of this book is to provide a general overview of the VI Preface various aspects of radio labeled monoclonal antibodies in cancer therapy, including basic problems and clinical use. Most likely, RIT will not be a solitary therapeutic modality, but may be a useful complement to the other established strategies, such as surgery and chemotherapy. The editors gratefully acknowledge the efforts of all the contributors, many of whom have presented previously unpublished results. Marie-Luise Sautter-Bihl Heiner Bihl Michael Wannenmacher Contents S. Matzku Monoclonal Antibodies in Tumor Therapy . . . . . . . . . 1 D.J. Buchsbaum and P.L. Roberson Experimental Radioimmunotherapy: Biological Effectiveness and Comparison with External Beam Radiation ................... 9 F. Buchegger, l.-P. Mach, S. Folli, B. Delaloye, A. Bischof-Delaloye, and A. Pelegrin Higher Efficiency of l3lI-Labeled Anti Carcinoembryonic Antigen-Monoclonal Antibody (Fab')z as Compared to Intact Antibodies in Radioimmunotherapy of Established Human Colon Carcinoma Grafted in Nude Mice. . . . . . . . . . . . . . . . . 19 l.L. Humm Problems and Advances in the Dosimetry of Radionuclide Targeted Therapy . . . . . . . . . . . . . . . . 37 M.-L. Sautter-Bihl, G. Herbold, and H. Bihl Minimal Residual Disease: a Target for Radioimmunotherapy with l3lI-Labeled Monocloncal Antibodies? Some Dosimetric Considerations 67 l.A. 0'D onoghue Optimal Therapeutic Strategies for Radioimmunotherapy . . . . . . . . . . . . . . . . . . . . . . . . 77 VIII Contents M.R. Zalutsky, J.M. Schuster, P.K. Garg, G.E. Archer, Jr., M. W. Dewhirst, and D.D. Bigner Two Approaches for Enhancing Radioimmunotherapy: Emitters and Hyperthermia. . . . . . . . . . . . . . . . . . . . 101 IX M.-L. Sautter-Bihl and H. Bihl Can Preirradiation Enhance Tumor Uptake of Radiolabeled Pharmaceuticals? Experimental Data in a Mouse Neuroblastoma Xenograft System 123 v. K. Langmuir The Use of Radioimmunotherapy in Combination with Bioreductive Agents ......... . 137 J. T. Kemshead, K.I. Hopkins, and c.L. Chandler Treatment of Diffuse Leptomeningeal Malignancy by Intrathecal Injection o f 1311 -R a d·1 0.1 mmunocon.J ugates ................. . 145 K. Hopkins, V. Papanastassiou, and J. T. Kemshead The Treatment of Patients with Recurrent Malignant Gliomas with Intratumoral Radioimmunocon j ugates 159 J.F. Eary and O. W. Press High Dose Radioimmunotherapy in Malignant Lymphoma ........................ 177 C. T. Miyamoto, L. W. Brady, M.A. Rackover, J. Emrich, R. Class, H. Bender, B. Micaily, and Z. Steplewski The Use of Epidermal Growth Factor Receptor-425 Monoclonal Antibodies Radiolabeled with lodine-125 in the Adjuvant Treatment of Patients with High Grade Gliomas of the Brain. . . 183 Subject Index. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 193 List of Contributors* Archer, G.E., lr. 1011 Humm,l.L. 37 Bender, H. 183 Kemshead,l.T. 145, 159 Bigner, D.D. 101 Langmuir, V.K. 137 Bihl, H. 67, 123 Mach,l.-P. 19 Bischof-Delaloye, A. 19 Matzku, S. 1 Brady, L.W. 183 Micaily, B. 183 Buchegger, F. 19 Miyamoto, C.T. 183 Buchsbaum, D.l. 9 O'Donoghue,l.A. 77 Chandler, c.L. 145 Papanastassiou, V. 159 Class, R. 183 Pelegrin, A. 19 Delaloye, B. 19 Press,O.W. 177 Dewhirst, M.W. 101 Rackover, M.A. 183 Eary,l.F. 177 Roberson, P.L. 9 Emrich,l. 183 Sautter-Bihl, M.-L. 67, 123 FoIIi, S. 19 Schuster,l.M. 101 Garg, P.K. 101 Stepleswki, Z. 183 Herbold, G. 67 Zalutsky, M.R. 101 Hopkins, K.I. 145, 159 * The address of the principal author is given on the first page of each contribution. I Page on which contribution begins. Monoclonal Antibodies in Tumor Therapy S. Matzku E. Merck KGaA, Pharma Preclinical Research, Frankfurterstr 250,64271 Darmstadt, Germany Introduction It is now almost two decades since the basis of hybridoma technology was established and it has subsequently been rapidly applied to problems of tumor biology. It is just a decade since gene technology manipulations (Jones et al. 1986) were successfully applied to antibodies, and the expan sion of this approach has led to a number of fundamental modifications of the antibody molecule (Winter and Harris 1993). With this background, it is legitimate to consider what the bottom line of therapeutic success is and to examine new perspectives. The Potential of Monoclonal Antibodies Specificity There is a consensus that target antigens in general are essentially normal structures which are expressed in higher density, in an overt fashion, and in an atypical tissular context on tumor cells. Exquisite specificities have nevertheless been identified as idiotypic determinants on B lymphoma cells, but these had only limited impact on therapeutic approaches. Inherent Functions "Naked" antibody is endowed with cyctolytic capacity, one effector function being antibody-dependent cellular cytotoxicity, the other, complement mediated cytotoxicity. Both mechanisms rely on the IgG 1 and IgG3 isotype (human antibodies), although clustering of antigen seems to be a major determinant in the complement situation. A further mechanism is receptor Recent Results in Cancer Research, Vol. 141 © Springer-Verlag Berlin· Heidelberg 1996