Basic Epithelial Ion Transport Principles and Function

1. Front Matter

   Pages i-xix

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2. Techniques of Epithelial Transport Physiology

   • Kirk L. Hamilton

   Pages 1-52

3. Principles of Epithelial Transport

   • Dee U. Silverthorn

   Pages 53-82

4. Establishment and Maintenance of Epithelial Polarization

   • Andrew D. Bergemann

   Pages 83-114

5. Mathematical Modeling of Epithelial Ion Transport

   • David P. Nickerson, Leyla Noroozbabaee, Dewan M. Sarwar, Kirk L. Hamilton, Peter J. Hunter

   Pages 115-133

6. Molecular Mechanisms of Apical and Basolateral Sorting in Polarized Epithelial Cells

   • Ora A. Weisz, Heike Fölsch

   Pages 135-158

7. Membrane Protein Structure and Folding

   • Aiping Zheng, Sophie C. Frizzell, Solomon M. Klombers, Patrick H. Thibodeau

   Pages 159-206

8. Epithelial Ion Channel Folding and ER-Associated Degradation (ERAD)

   • Teresa M. Buck, Jeffrey L. Brodsky

   Pages 207-247

9. Fundamentals of Epithelial Cl− Transport

   • Bruce D. Schultz, Daniel C. Devor

   Pages 249-290

10. Fundamentals of Epithelial Na+ Absorption

    • Alexander Staruschenko, Daria V. Ilatovskaya, Kenneth R. Hallows

    Pages 291-336

11. Physiologic Influences of Transepithelial K+ Secretion

    • Dan R. Halm

    Pages 337-393

12. Volume Regulation in Epithelia

    • Erik Hviid Larsen, Else Kay Hoffmann

    Pages 395-460

13. Fundamentals of Bicarbonate Secretion in Epithelia

    • Ivana Novak, Jeppe Praetorius

    Pages 461-541

14. MicroRNA Regulation of Channels and Transporters

    • Kelly M. Weixel, Michael B. Butterworth

    Pages 543-563

This book discusses unique ion channels and transporters that are located within epithelial tissues of various organs including the kidney, intestine, pancreas and respiratory tract. As the authors show, these channels and transporters play crucial roles in transepithelial ion and fluid transport across epithelia and their contribution to maintaining homeostasis. Readers will be introduced to the fundamentals of ion transport in terms of function, modelling, regulation, structure and pharmacology. This is the first of three volumes highlighting the importance of epithelial ion channels and transporters in basic physiology and pathophysiology of human diseases. 


This volume focuses  on basic fundamentals of epithelial transport physiology. There is a range of chapters dedicated to specific aspects of epithelial ion transport and cell function. Accordingly, the authors discuss techniques used to determine epithelial function, principles of epithelia transport, polarization of epithelial cells, mathematical modelling of epithelial ion transport, protein folding of ion channels, degradation epithelial ion channels, fundamentals of epithelial sodium, potassium and chloride transport, fundamentals of bicarbonate secretion, volume regulation, and microRNA regulation of epithelial channels and transporters. Given its scope, Volume 1 offers a valuable resource for physiology students, scientists and clinicians alike. 

• Ion channels
• Ion transporters
• Na+ channels
• K+ channels
• Cl- channels
• epithelial transport

• Department of Physiology, School of Biomedical Sciences, University of Otago, Dunedin, New Zealand

  Kirk L. Hamilton

• Department of Cell Biology, University of Pittsburgh, Pittsburgh, USA

  Daniel C. Devor

Kirk L. Hamilton was born in Baltimore, Maryland in 1953. He gained his undergraduate (biology/chemistry) and M.Sc. (ecology) degrees from the University of Texas at Arlington. He obtained his Ph.D. at Utah State University under the tutelage of Dr. James A. Gessaman, where he studied incubation physiology of Barn owls. His first post-doctoral position was at the University of Texas Medical Branch in Galveston, Texas under the mentorship of Dr. Douglas C. Eaton where he studied epithelial ion transport, specifically, the epithelial sodium channel (ENaC).  He then moved to the Department of Physiology at the University of Alabama, Birmingham for additional post-doctoral training under the supervision of the late Dr. Dale J. Benos where he further studied ENaC, and non-specific cation channels. He took his first academic post in the Department of Biology at Xavier University of Louisiana in New Orleans (1990-1994). He then joined the Department of Physiology at the University of Otago in 1994, and he is currently an Associate Professor. He has focused his research on the molecular physiology and trafficking of potassium channels (specifically KCa3.1). He has published more than 60 papers and book chapters. His research work has been funded by the NIH, American Heart Association, Cystic Fibrosis Foundation, and Lottery Health Board New Zealand. Dr. Devor and he have been collaborators since 1999. When he not working, he enjoys playing guitar (blues and jazz) and volleyball. Kirk is married to Judith Rodda, a recent Ph.D. graduate in spatial ecology. They have 2 children, Nathan (b. 1995) and Emma (b. 1998).

Daniel C. Devor was born in Vandercook Lake, Michigan in 1961. His education took him through Southampton College of Long Island University, where he studied Marine Biology, before entering SUNY Buffalo for his Ph.D., under the guidance of Dr. Michael E. Duffey. During this time, he studied the role of basolateral potassium channels inregulating transepithelial ion transport. He subsequently did his post-doctoral work at the University of Alabama, Birmingham, under the mentorship of Dr. Raymond A. Frizzell, where he studied both apical CFTR and basolateral KCa3.1 in intestinal and airway epithelia. He joined the University of Pittsburgh faculty in 1995 where he is currently a Professor of Cell Biology. During this time, he has continued to study the regulation, gating and trafficking of KCa3.1 as well as the related family member, KCa2.3, publishing more than 50 papers on these topics. These studies have been funded by the NIH, Cystic Fibrosis Foundation, American Heart Association and pharmaceutical industry. When not in the lab, he enjoys photography and growing exotic plants. Dan is married to Catherine Seluga, an elementary school teacher. They have 3 children, Caitlin (b. 1990), Emily (b. 1993) and Daniel (b. 1997).

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