Alterations in the Neuronal Cytoskeleton in Alzheimer Disease ADVANCES IN BEHA VIORAL BIOLOGY Editorial Board Jan Bures Institute of Physiology, Prague, Czechoslovakia Irwin Kopin National Institute of Mental Health, Bethesda, Maryland Bruce McEwen Rockefeller University, New York, New York James McGaugh University of California, Irvine, California Karl Pribram Stanford University School of Medicine, Stanford, California Jay Rosenblatt Rutgers University, Newark, New Jersey Lawrence Weiskrantz University of Oxford, Oxford, England Recent Volumes in this Series Volume 23 THE AGING BRAIN AND SENILE DEMENTIA Edited by Kalidas Nandy and Ira Sherwin Volume 24 CHOLINERGIC MECHANISMS AND PSYCHOPHARMACOLOGY Edited by Donald J. Jenden Volume 25 CHOLINERGIC MECHANISMS: Phylogenetic Aspects, Central and Peripheral Synapses, and Clinical Significance Edited by Giancarlo Pepeu and Herbert Ladinsky Volume 26 CONDITIONING: Representation of Involved Neural Functions Edited by Charles D. Woody Volume 27 THE BASAL GANGLIA: Structure and Function Edited by John S. McKenzie, Robert E. Kemm, and Lynette N. Wilcock Volume 28 BRAIN PLASTICITY, LEARNING, AND MEMORY Edited by B. E. Will, P. Schmitt, and J. C. Dalrymple-Alford Volume 29 ALZHEIMER'S AND PARKINSON'S DISEASES: Strategies for Research and Development Edited by Abraham Fisher, Israel Hanin, and Chaim Lachman Volume 30 DYNAMICS OF CHOLINERGIC FUNCTION Edited by Israel Hanin Volume 31 TOBACCO SMOKING AND NICOTINE: A Neurobiological Approach Edited by William R. Martin, Glen R. Van Loon, Edgar T. Iwamoto, and Lay ten Davis Volume 32 THE BASAL GANGLIA 11: Structure and Function-Current Concepts Edited by Malcolm B. Carpenter and A. Jayaraman Volume 33 LECITHIN: Technological, Biological, and Therapeutic Aspects Edited by Israel Hanin and G. Brian Ansell Volume 34 ALTERATIONS IN THE NEURONAL CYTOSKELETON IN ALZHEIMER DISEASE Edited by George Perry A Continuation Order Plan is available for this series. A continuation order will bring delivery of each new volume immediately upon publication. Volumes are billed only upon actual shipment. For further information please contact the publisher. Alterations in the Neuronal Cytoskeleton in Alzheimer Disease Edited by GEORGE PERRY Case Western Reserve University Cleveland, Ohio PLENUM PRESS • NEW YORK AND LONDON Library of Congress Cataloging in Publication Data Alterations in the neuronal cytoskeleton in Alzheimer disease. (Advances in behavioral biology; v. 34) Based on proceedings of a symposium held Dec. 7, 1986 in Washington, D.C. Includes bibliographies and index. 1. Alzheimer's disease-Pathophysiology-Congresses. 2. Cytoskeletal pro teins-Congresses. 3. Cytoplasmic filaments-Congresses. I. Perry, George. 11. Series. [DNLM: 1. Alzheimer's Disease-pathology-congresses. 2. Cytos keletons - pathology -congresses. 3. Neurofibrils - pathology -congresses. WM 220 A466 19B6J RC523.A37 1987 616.8'3 87-29256 ISBN-13: 978-1-4612-8920-3 e-ISBN-13: 978-1-4613-1657-2 001: 10.1007/978-1-4613-1657-2 Based on proceedings of a symposium on Reorganization of the Neuronal Cytoskeleton in Aging, held December 7. 1986, in Washington, D.e. © 1987 Plenum Press, New York Softcover reprint of the hardcover 1s t edition 1987 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 TO THE MEMORY OF MY FATHER PREFACE The neuronal cytoskeleton is a complex structure responsive to both intrinsic and extrinsic factors. Defined populations of neurons in the brains of patients with Alzheimer and several other neurodegenerative diseases contain abnormal filamentous accumulations which share elements with the cytoskeleton. Although there is a general consensus that these abnormal filaments do contain cytoskeletal elements, much debate remains regarding which cytoskeletal elements are incorporated and whether the cytoskeletal rearrangement is primary or secondary to other cellular changes. In this book these questions are addressed in a historical perspect ive in light of new data that allows the reinterpretation of previously reported results. Contributions are based on many of the major tech niques of modern biology including biochemistry, molecular biology, electron microscopy and immunocytochemistry. In the view of the editor, this volume is being written at a time when our understanding of the cytopathology of Alzheimer disease is moving from predominantly descriptive to both analytical and mechanistic. I hope that this contribution will provide impetus to speed this transi tion. George Perry Cleveland, Ohio vii ACKNOWLEDGEMENT The support of the Fidia Pharmaceutic Corporation for the computer generated color figure on page 65 is gratefully acknowledged. viii CONTENTS Neurofilaments: A Review and Update 1 S.S.M. Chin and R.K.H. Liem The Phosphorylation of the Microtubule-associated Tau Proteins •••••••••••••••• 25 J. Baudier and R.D. Cole Human Amyloidosis and In Vitro Formation of Alzheimer Amyloid Fibrils • ••• • • • • • • • • • • • • • • 33 E.M. Castano and B. Frangione Cloning of Neurofibrillary Tangle-related Genes • • • • • • • • •• 45 K.S. Kosik and R. Neve Ubiquitin in Alzheimer and Other Neurodegenerative Diseases. • •. 53 G. Perry, V. Manetto, and P. Mulvihill Neuronal Fibrillar Cytoskeleton and Endomembrane System Organization in Alzheimer's Disease ••• 61 M. Ellisman, R. Ranganathan, T. Deerinck, S. Young, R. Terry, and S. Mirra Transformation of the Neurofilamentous Network Components into PHF-like Strands and PHF Paracrystals 75 J. Metuzals, Y. Robitaille, S. Houghton, S. Gauthier, and R. Leblanc Intraneuronal and Extracellular Filaments in the Pathogenesis of Alzheimer's Disease ••••••••••••••• 97 D.J. Selkoe Alterations of the Neuronal Cytoskeleton in Alzheimer's Disease and Related Conditions ••••• 109 K. Iqbal, I. Grundke-Iqbal, H.M. Wisniewski Alterations of the Neurofilament-microtubule Network in Alzheimer Disease And Other Neurodegenerative Disorders • • • • • • • • • • • • • • • • • • • • 137 G. Perry, V. Manetto, M. Onorato, M. Weiss, p. Mulvihill, p. Galloway, M. Tabaton, L. Autilio-Gambetti, and p. Gambetti ix Immunochemical Studies of the Relationship Between the Neuronal Cytoskeleton and Neurofibrillary Tangles 151 D.P. Hue, J.p. Brion, P.A. Robinson, and B.H. Anderton Monoclonal Antibodies Show Cross-reactivity of Alzheimer Neurofibrillary Tangles and Heat-stable Microtubule- associated Proteins • • • • • • • • •• •• • • • 165 D.W. Dickson, H. Ksiezak-Reding, A. Crowe, and S.H. Yen An Immunocytochemical Comparative Analysis of Tau in Neurodegenerative Diseases 181 N.J. Pollock, S.S. Mirra, and J.G. Wood Cytoskeletal Abnormalities in Parkinson's Disease 191 J.E. Goldman Microfilament Involvement in Hirano Body Formation 199 p. Galloway and G. Perry Contributors 211 Index • • • • 215 x NEUROFILAMENTS: A REVIEW AND UPDATE Steven S.M. Chin and Ronald K.H. Liem Department of Pharmacology New York University School of Medicine New York, N.Y. INTRODUCTION For decades neuroanatomists have been familiar with a distinctive fibrillar appearance of large mammalian axons after treatment of nervous tissue with various silver stains. These structures were aptly referred to as "neurofibrils." It was only relatively recently through combined efforts utilizing electron microscopic, biochemical, and immunological methodologies that these well-known structures have been more precisely defined and characterized. Today we refer to these "neurofibrils" as neurofilaments. The goal of this chapter is to review our current knowledge and understanding of neurofilaments in the context of normal cell function. MORPHOLOGY Electron microscopic examination of ultra-thin sections taken through large mammalian axons clearly reveal an abundance of electron-dense filaments measuring from 7 to 15 nanometers (nm) in diameterl . These neurofilaments (NF) are easily distinguished from the larger (25-30nm) microtubules. Ultra thin sectioned material also reveal a finer fibrillar, whisker like material which seems to cross link neurofilaments to each other as well as to microtubules. This feature is unique among the lOnm or intermediate filaments (IF) of which the neurofilaments are a member. Studies using quick-freeze, deep etching techniques have confirmed the existence of these crosslinkers (4-6nm in diameter and 20-50nm in length) in ~2,3. High magnification analysis of cross-sectioned neurofilaments reveal an electron-lucent core measuring approximately 3nm in width. Metal-shadowed preparations of isolated and re-assembled neurofilaments have consistently demonstrated a 2lnm axial periodicity which has been directly correlated with the prevailing model of IF structure (see below)4,5.