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Amiloride-Sensitive Sodium Channels: Physiology and Functional Diversity, Volume 47 (Current Topics in Membranes) [Hardcover]

Dale J. Benos (Editor), Douglas M. Fambrough (Series Editor)

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Book Description

Publication Date: May 7, 1999 | ISBN-10: 0121533476 | ISBN-13: 978-0121533472 | Edition: 1

Sodium reabsorbing epithelia play a major role in whole-body sodium homeostasis. Some examples of sodium regulating tissues include kidney, colon, lung, and sweat ducts. Sodium transport across these membranes is a two-step process: entry through an amiloride-sensitive sodium channel and exit via the ouabain-sensitive sodium/potassium ATPase. The sodium entry channels are the rate-limiting determinant for transport and are regulated by several different hormones. The sodium channels also play a significant role in a number of disease states, like hypertension, edema, drug-induced hyperkalemia, and cystic fibrosis. Amiloride-Sensitive Sodium Channels: Physiology and Functional Diversity provides the first in-depth exchange of ideas concerning these sodium channels, their regulation and involvement in normal and pathophysiological situations.

Key Features
* Summarizes current state of amiloride-sensitive sodium channel field
* Analyzes structure-function of epithelial sodium channels
* Discusses immunolocalization of epithelial sodium channels
* Examines hormonal regulation of sodium channels
* Discusses sodium channels in lymphocytes, kidney, and lung
* Considers mechanosensitivity of sodium channels
* Provides ideas on sodium channels and disease

#outer_postBodyPS { display: none; } #psGradient { display: none; } #psPlaceHolder { display: none; } #psExpand { display: none; } Sodium reabsorbing epithelia play a major role in whole-body sodium homeostasis. Some examples of sodium regulating tissues include kidney, colon, lung, and sweat ducts. Sodium transport across these membranes is a two-step process: entry through an amiloride-sensitive sodium channel and exit via the ouabain-sensitive sodium/potassium ATPase. The sodium entry channels are the rate-limiting determinant for transport and are regulated by several different hormones. The sodium channels also play a significant role in a number of disease states, like hypertension, edema, drug-induced hyperkalemia, and cystic fibrosis. Amiloride-Sensitive Sodium Channels: Physiology and Functional Diversity provides the first in-depth exchange of ideas concerning these sodium channels, their regulation and involvement in normal and pathophysiological situations.

Key Features
* Summarizes current state of amiloride-sensitive sodium channel field
* Analyzes structure-function of epithelial sodium channels
* Discusses immunolocalization of epithelial sodium channels
* Examines hormonal regulation of sodium channels
* Discusses sodium channels in lymphocytes, kidney, and lung
* Considers mechanosensitivity of sodium channels
* Provides ideas on sodium channels and disease

Editorial Reviews

From the Back Cover

Sodium reabsorbing epithelia play a major role in whole-body sodium homeostasis. Amiloride-Sensitive Sodium Channels: Physiology and Functional Diversity provides the first in-depth exchange of ideas concerning these sodium channels, their regulation, and their involvement in normal and pathophysiological situations. Edited by a recognized expert in the field with an international cadre of contributors, this work presents a timely update to current knowledge of amiloride-sensitive sodium channels.
* Analysis of structure-function relationships of epithelial sodium channels
* Immunolocalization of epithelial sodium channels
* Hormonal regulation of sodium channels
* Sodium channels in lymphocytes, kidney, and lung
* Mechanosensitivity of amiloride-sensitive sodium channels
* Sodium channels and disease --This text refers to the Paperback edition.

About the Author

Douglas Fambrough, The John Hopkins University, Baltimore, Maryland, U.S.A. --This text refers to the Paperback edition.

Product Details

Hardcover: 384 pages
Publisher: Academic Press; 1 edition (May 7, 1999)
Language: English
ISBN-10: 0121533476
ISBN-13: 978-0121533472
Product Dimensions: 9.3 x 6.2 x 1 inches
Shipping Weight: 1.8 pounds (View shipping rates and policies)
Amazon Best Sellers Rank: #7,420,225 in Books (See Top 100 in Books)

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Front Cover | Table of Contents | First Pages | Index | Surprise Me!

Inside This Book (learn more)

First Sentence:
Epithelial ion channels permit the passage of ions and ultimately water across the epithelial barrier. Read the first page

Key Phrases - Capitalized Phrases (CAPs): (learn more)
Pfluegers Arch, Academic Press, Current Topics, Cell Biol, Kidney Int, Care Med, Cell Mol, New York, University of Alabama, Olivier Staub, Oxford University Press, Van Scott, American Lung Association, Cell Sci, Elsevier Science, Farhad Kosari, Brain Res, Catecholamine Action, Cell Physiol, Conclusion References, National Institutes of Health, Membrane Biol, News Physiol, References Awayda, Summary References

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Books on Related Topics | Concordance | Text Stats

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Front Cover | Table of Contents | First Pages | Index | Surprise Me!

Citations (learn more)

This book cites 16 books:

The Mitochondrion in Health and Disease by David D. Tyler on page 270
Chemical Senses: Volume 4, Apetite and Nutrition (v. 4) by Mark I. Friedman on page 348
Cell Volume Control. Fundamental and Cell Volume Control. Fundamental and Comparative Aspects in Animal Cells. (Current Topics in Membranes, 30) by Author Unknown in Front Matter
Cystic Fibrosis: Horizons (A Wiley Medical publication) by David Lawson in Back Matter
Chemical Senses by Joseph G. Brand on page 348

See all 16 books this book cites

4 books cite this book:

Membrane Permeability: 100 Years Since Ernest Overton, Volume 48 (Current Topics in Membranes) by David W. Deamer in Front Matter
Extracellular Nucleotides and Nucleosides: Release, Receptors, and Physiological & Pathophysiological Effects, Volume 54 (Current Topics in Membranes) by Erik Mills Schwiebert on page 2
Aquaporins, Volume 51 (Current Topics in Membranes) by Stefan Hohmann in Front Matter
Aquaporins, Volume 51 (Current Topics in Membranes) by Stefan Hohmann on page 2

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