Cytochrome Oxidase in Neuronal Metabolism and Alzheimer’s Disease

  • F. Gonzalez-Lima

Table of contents

  1. Front Matter
    Pages i-x
  2. Neuronal Metabolism and Cytochrome Oxidase Function

    1. Margaret T. T. Wong-Riley, Feng Nie, Robert F. Hevner, Suyan Liu
      Pages 1-53
    2. F. Gonzalez-Lima, A. Cada
      Pages 55-90
    3. Robert F. Hevner
      Pages 91-108
    4. Michele Papa, Adolfo G. Sadile, Joseph A. Sergeant, Jason Shumake, F. Gonzalez-Lima
      Pages 145-169
  3. Alzheimer’s Disease and Cytochrome Oxidase Dysfunction

    1. F. Gonzalez-Lima, J. Valla, L. Jorandby
      Pages 171-201
    2. Krish Chandrasekaran, Kimmo Hatanpää, Li-Ing Liu, Stanley I. Rapoport
      Pages 203-216
    3. N. P. Abdollahian, A. Cada, F. Gonzalez-Lima, J. C. de la Torre
      Pages 233-261
  4. Appendix

    1. F. Gonzalez-Lima, A. Cada
      Pages 263-280
  5. Back Matter
    Pages 281-289

About this book


This book is based on an international symposium titled "Cytochrome oxidase in energy metabolism and Alzheimer's disease," held as a satellite to the 27th meeting of the Society for Neuroscience, New Orleans, 1997. The symposium was dedicated in honor of Dr. Margaret T. T. Wong-Riley because, in our opinion, the cytochrome oxidase histo­ chemical method introduced by Dr. Wong-Riley in 1979 was the most significant break­ through to map energy metabolism in the entire brain since the 2-deoxyglucose method introduced by Dr. Louis Sokoloff and colleagues in 1977. Both of these metabolic map­ ping techniques have made monumental contributions to brain research by allowing an integral view of brain activity. They have also developed into various specialized tech­ niques, including applications to the human brain. One of these new applications, which is described in detail in this book, is the quantitative cytochrome oxidase cytochemical method used to study Alzheimer's disease. The objective of this book is to describe the role of cytochrome oxidase in neuronal metabolism and Alzheimer's disease. Whether genetic or environmental, the pathogenesis of Alzheimer's disease involves a cascade of multiple intracellular events, eventually re­ sulting in failure of oxidative energy metabolism. Could impairment of cytochrome oxi­ dase in energy metabolism initiate the degenerative process? Cytochrome oxidase function and dysfunction are discussed in relationship to neuronal energy metabolism, neurodegen­ eration, and Alzheimer's disease. The book is made up of 10 chapters, divided into three major parts.


Alzheimer behavior gene expression metabolism neuroscience

Editors and affiliations

  • F. Gonzalez-Lima
    • 1
  1. 1.Institute for Neuroscience and Department of PsychologyThe University of Texas at AustinAustinUSA

Bibliographic information