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The Antibody Enigma PDF

280 Pages·1984·6.432 MB·English
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THE ANTIBODY ENIGMA THE ANTIBODY ENIGMA THOMAS J. KINDT National Institute of Allergy and Infectious Diseases National Institutes of Health Bethesda, Maryland AND J. DONALD CAPRA University of Texas Health Science Center Dallas, Texas PLENUM PRESS • NEW YORK AND LONDON Library of Congress Cataloging in Publication Data Kindt Thomas L 1939- The antibody enigma. Includes bibliographical references and index. 1. Antibody diversity. I. Capra, J. Donald, 1937- . II. Title. [DNLM: 1. Anti- body diversity. QW 575 K51aj QR186.7.K56 1984 599'.0293 84-4761 ISBN -13: 978-1-4684-4678-4 e-ISBN-13: 978-1-4684-4676-0 DOl: 10.1007/978-1-4684-4676-0 ©1984 Plenum Press, New York Softcover reprint of the hardcover 1st edition 1984 A Division of Plenum Publishing Corporation 233 Spring Street, New York, N.Y. 10013 All rights reserved No part of this book may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical. photocopying, microfilming, recording, or otherwise, without written permission from the Publisher This book is dedicated to our teachers, H. Edward Conrad, Charles Todd, Richard Krause, Thomas B. Tomasi, Jr., Alan Peterkofsky, and Henry Kunkel, and to our many graduate students and postdoctoral fellows. Both groups have been a continuous source of inspiration and ideas. The empirical basis of objective science has thus nothing "absolute" about it. Science does not rest upon solid bedrock. The bold struc ture of its theories rises, as it were, above swamp. It is like a building erected on piles. The piles are driven down from above into the swamp, but not down to any natural or "given" base; and if we stop driving the piles deeper, it is not because we have reached firm ground. We simply stop when we are satisfied that the piles are firm enough to carry the structure, at least for the time being. - KARL POPPER (The Logic of Scientific Discovery) PREFACE The Antibody Enigma is a somewhat personal view of the antibody diversity question from two investigators who have spent the past 18 years trying to penetrate the enigma. It is not and was not meant to be an all-embracing comprehensively referenced review of the subject of antibody diversity. Because of the subjective viewpoint, there are un doubtedly omissions of data that others consider to be seminal, and if we have offended anyone by omitting their own contribution we sin cerelyapologize. We have lived with "The Enigma" on and off for the past two years. It has been both hard work and good fun but, above all, it has been a learning experience. There were several difficult decisions to make in putting together the final text, but perhaps the most difficult was de ciding upon a stopping point. The field of antibody diversity is presently enjoying an unparalleled expansion of information, and because of this it was very tempting to await further developments in hopes of tying up as many loose ends as possible. This was decided against for several reasons; the major factor was that the project was growing burdensome for both of us. From a more objective point of view this appears to be a reasonable time to stop our exposition. The questions that began to take shape in the mid-1950s with the first serious genetic studies have been answered and a new set of rules for antibody diversity generation has been defined. New and different questions have replaced the old, and while some of these will be answered by studies in progress, there are other questions that will be with us for a much longer time. Although we have not written solely from an historic point of view there is em phasis in this volume on the development of concepts related to our subject. It is our opinion that an understanding of this development will help investigators to better understand what is happening today and what may happen tomorrow in this field. ix x PREFACE Another difficult decision concerned determination of the audience to which the book is directed. Related to this decision was the choice of a title that would reach this intended group. In this respect we must admit defeat. It has been impossible for us to say exactly for whom the book is intended and perhaps this uncertainty is further reflected in our choice of a title. Certainly it remains impossible to write a book entitled The Solution to the Question of Antibody Diversity. Numerous title formu lations were tried and rejected on the basis of being either too amorphous or too indicative that the problem has been solved. There have been a number of persons who have put much time and effort into this project. First of all, Richard Wasserman, Lisa Steiner, and Edward Max deserve special mention for reading the draft of the text, finding errors and inconsistencies, and pointing these out to us. The enormous job of typing, correcting, and retyping was faithfully carried out by Kathy van Egmond in Dallas and Virginia Shaw and Lynette White in Bethesda. Their patience is to be commended. It was a pleasure to work with the staff of Plenum Press, and we wish to thank Kirk Jensen for his enormous contributions to this text. If all of the abbreviations are finally consistent and all thats and whichs properly sorted out, it is certainly due to the efforts of Jane Woolsey. We thank numerous colleagues for prepublication information in various forms. Finally we wish to thank our families for suffering with us through the birth of this work. T. J. Kindt J. D. Capra CONTENTS 1. THE NATURE OF THE PROBLEM 1.1. Introduction 1 1.2. Antibody Synthesis 2 1.3. Historical Roots 5 1.3.1. Introduction of the Germline Concept of Immunologic Specificity 6 1.3.2. Introduction of the Somatic Concept of Immunologic Specificity 7 1.4. Clonal Selection 9 1.5. Effector Functions 11 1.6. The Extent of Diversity-The Problem in a Nutshell 12 1.7. Scope of the Book 14 1.8. Precis 14 References and Bibliography 15 2. THE SEROLOGIST'S APPROACH TO THE PROBLEM 2.1. Introduction 17 2.2. Rabbit Allotypes 18 2.2.1. Discovery 18 2.2.2. Variable-Region Allotypes 21 2.3. Human Allotypes 27 2.3.1. Discovery 27 2.3.2. Allotypes and Isotypes 28 2.3.3. Haplogroups 29 2.4. Allotypes of the Mouse and the Rat 30 2.4.1. Mouse Allotypes 30 2.4.2. Allotypes of the Rat 32 xi xii CONTENTS 2.5. Individual Antigenic Specificity and Idiotypy 32 2.5.1. Idiotypes of Human Immunoglobulins 33 2.5.2. Idiotypes of Rabbit Antibodies 35 2.5.3. Presence of Idiotypes on IgG and IgM 36 2.5.4. Idiotype versus lAS 38 2.6. Idiotypes as Markers for Antibody-Binding Regions 40 2.6.1. Idiotypic Cross-Specificity 40 2.6.2. Antigen Inhibition of Idiotype Reactions 42 2.6.3. Exceptions to the Correlation of Idiotypy and Binding Site 43 2.7. The Inheritance of Idiotypes 44 2.7.1. Discovery 45 2.7.2. The Mouse Idiotype Systems 51 2.8. Conclusion 57 References and Bibliography 57 3. THE BIOCHEMIST'S APPROACH TO THE PROBLEM 3.1. Biochemical Studies on Heterogeneous Antibodies 61 3.2. Biochemical Studies on Homogeneous Antibodies 63 3.2.1. Human Myeloma 63 3.2.2. Mouse Myeloma 65 3.2.3. Other Homogeneous Antibodies 65 3.2.4. Hybridomas 67 3.3. Structural Features of Immunoglobulin Isotypes and Allotypes 67 3.3.1. The Human Immunoglobulin Classes 68 3.3.2. The Carbohydrate Structures of Human Immunoglobulins 71 3.3.3. Comparisons of Immunoglobulins from Different Species 72 3.3.4. Immunoglobulin Allotypes 74 3.4. Structural Features of V Regions 76 3.4.1. V-Region Subgroups 76 3.4.2. Framework and Hypervariable Regions 79 3.4.3. The Antibody-Combining Site 82 3.5. Are the C Regions Really Constant? 86 3.6. Structural Analysis of Selected V Regions 86 3.6.1. Mouse VA 86 3.6.2. Mouse V K21 88 3.6.3. The Mouse V Ars Kappa Chains 90 CONTENTS xiii 3.7. Precis 92 References and Bibliography 92 4. UNIQUE FEATURES OF THE ANTIBODY PROBLEM 4.1. Introduction 95 4.2. Structural Variability of Antibodies 96 4.2.1. Immunoglobulins and Major Histocompatibility Complex Proteins 96 4.2.2. Immunoglobulins and Hemoglobin 99 4.3. Two Genes-One Polypeptide Chain 100 4.3.1. The Todd Phenomenon 101 4.3.2. Structural Differentiation of V and C Regions 103 4.3.3. Statement of the Two-Gene Hypothesis 103 4.3.4. Cis or Trans Synthesis 107 4.3.5. Genetic Recombination between V- and C-Region Allotypes 110 4.3.6. Biclonal Myeloma Proteins 110 4.3.7. Cross-overs between Idiotypes and C Regions 112 4.3.8. Theoretical Impact of the Two-Gene Hypothesis 114 4.4. Allelic Exclusion 114 4.4.1. The Lyon Hypothesis 115 4.4.2. Selective Expression of Immunoglobulin Alleles 115 4.5. The Three Loci for Immunoglobulins 119 4.5.1. Kappa versus Lambda Light Chains 120 4.5.2. Expression of V-Region Subgroups 122 4.5.3. Allelic Selection of Immunoglobulin Genes 123 4.6. Conclusion 125 References and Bibliography 126 5. THE POLAR SOLUTIONS 5.1. Introduction 129 5.2. The Germline Theory 131 5.3. The Somatic Mutation Theory 132 5.4. Data Favoring Germline Theories 134 5.4.1. V-Region Subgroups 134 5.4.2. Evolutionary Divergence (Trees) 137 5.4.3. Inheritance of Idiotypes 139 5.5. Data Favoring Somatic Mutation Models 141 5.5.1. Phylogenetically Associated Residues 141

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