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New Molecular Mechanisms of Estrogen Action and Their Impact on Future Perspectives in Estrogen Therapy

  • Editors
  • K. S. Korach
  • A. Hillisch
  • K. H. Fritzemeier
Conference proceedings

Part of the Ernst Schering Research Foundation Workshop book series (SCHERING FOUND, volume 46)

Table of contents

  1. Front Matter
    Pages I-XVI
  2. C. R. Lyttle, B. S. Komm, B. J. Cheskis
    Pages 1-21
  3. M. Parker, R. White, G. Leonardsson, S. Milligan, J. Steel
    Pages 23-31
  4. G. L. Greene, A. K. Shiau, K. W. Nettles
    Pages 33-45
  5. E. R. Simpson, S. McPherson, M. Jones, K. Robertson, W. C. Boon, G. Risbridger
    Pages 89-112
  6. K.-H. Fritzemeier, A. Hillisch, W. Elger, U. Kaufmann, U. Kollenkirchen, D. Kosemund et al.
    Pages 127-150
  7. P. Ciana, P. Mussi, M. Raviscioni, A. Biserni, L. Ottobrini, E. Vegeto et al.
    Pages 151-168
  8. F. Bayard, P. Gourdy, R. Elhage, L. Brouchet, B. Garmy-Susini, C. Castano et al.
    Pages 181-187
  9. Back Matter
    Pages 211-214

About these proceedings

Introduction

From our current knowledge, it is obvious that estrogen action in­ volves more than reproduction and fertility. Rather, estrogens affect and influence a number of other organ systems such as the immune, cardiovascular and central nervous system as well as the gastrointes­ tinal tract, urinary tract and skeleton. The importance of estrogens and estrogen receptor activity is appreciated from the spectrum of significant physiological dysfunctions that occur when there is a loss The participants of the workshop VI Preface of the hormone or the receptor activity. Loss of estrogen, however (for instance during menopause), occurs with time and results in a variety of clinical conditions. We know that the developmental loss of estrogen, as seen in clinical cases of aromatase gene mutations and experimental models, has dramatic effects in both men and women alike. The evidence that these effects are mediated through the estrogen receptor(s) is based on similar but not always identical phenotypes as observed in experimental animal models of estrogen receptor mutations as well as the single clinical case of an estrogen receptor alpha mutant patient. Developing an understanding of the spectrum of estrogen in a variety of tissues related to the condition of estrogen loss is a major and highly active clinical as well as basic scientific research area. Following the discovery of a second estrogen receptor and possible receptor ligand-independent activity as well as the genomic and non­ genomic actions of estrogen, it is clear that the mechanisms of the effects of estrogen are multifaceted.

Keywords

Drug Discovery Estrogen Receptor Hormone Replacement Therary Steroid Hormones Structure Biology estrogen action tissue

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-662-05386-7
  • Copyright Information Springer-Verlag Berlin Heidelberg 2004
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Springer Book Archive
  • Print ISBN 978-3-662-05388-1
  • Online ISBN 978-3-662-05386-7
  • Series Print ISSN 0947-6075
  • Buy this book on publisher's site