Cellular Ca2+ Regulation

1. Front Matter

   Pages i-ix

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2. Mechanism and Regulation of Mitochondrial Ca2+ Transport

   1. Mechanisms of Mitochondrial Calcium Transport

      • Thomas E. Gunter, Douglas E. Wingrove, Srabani Banerjee, Karlene K. Gunter

      Pages 1-14

   2. Permeability Pathways of Ca2+ Efflux from Mitochondria: H+ Specificity and Reversibility of the Permeability Defect

      • Douglas R. Pfeiffer, Kimberly M. Broekemeier, Urule Igbavboa, Martin Reers, William W. Riley Jr.

      Pages 15-23

   3. The Role of Calcium and Phospholipase A2 in Glucagon-Induced Enhancement of Mitochondrial Calcium Retention

      • Jan B. Hoek, Naotaro Harada, Gisela Moehren, Michelle Tomsho, Chris D. Stubbs

      Pages 25-36

   4. Sodium/Proton Antiporters in the Mitochondrial Inner Membrane

      • Keith D. Garlid

      Pages 37-46

   5. Monovalent Cation Antiport Reactions in Isolated Mitochondria

      • Gerald P. Brierley, Dennis W. Jung

      Pages 47-57

3. Ca2+ Transport Mechanisms in Microsomes and Membranes

   1. The Hepatic Microsomal Ca2+ Sequestering System

      • Naomi Kraus-Friedmann, C. Ricky Fleschner, Piotr Zimniak, Pamela Moore

      Pages 59-68

   2. Regulation of Liver Plasma Membrane Ca2+ Pump

      • Sophie Lotersztajn, Catherine Pavoine, Ariane Mallat, Françoise Pecker

      Pages 69-82

   3. Purification of Ca2+-ATPase from Rat Pancreatic Acinar Plasma Membranes Using Calmodulin-Affinity Chromatography

      • M. Bridges, R. Mahey, W. Lau, M. Hampong, S. Katz

      Pages 83-85

   4. The Relative Importance of Calcium Influx and Efflux via Na-Ca Exchange in Cultured Myocardial Cells

      • William H. Barry, John H. B. Bridge

      Pages 87-95

   5. Na-Ca Exchange in Cardiac Sarcolemmal Vesicles

      • Carole A. Bailey, Philip Poronnik, John P. Reeves

      Pages 97-104

   6. Sodium-Calcium Exchange in Platelet Plasma Membrane Vesicles

      • Appavoo Rengasamy, Harold Feinberg

      Pages 105-108

   7. Effect of Ca2+ Channel Blockers on Passive Calcium Influx into Resealed Human Red Blood Cell Ghosts

      • Basil D. Roufogalis, Anar Virji

      Pages 109-113

4. Pathophysiological Aspects of Ca2+ Transport

   1. Altered Calcium Homeostasis and Membrane Integrity in Myocardial Cell Injury

      • L. Maximilian Buja, Karen P. Burton, Kenneth R. Chien, James T. Willerson

      Pages 115-124

   2. Cellular Ca2+ Dyshomeostasis in the Liver in Endotoxic Shock

      • Mohammed M. Sayeed, Subir R. Maitra

      Pages 125-129

   3. Evidence for Hexagonal II Phase Lipid Involvement in Mitochondrial Ca2+ Movements

      • Paul Wolkowicz

      Pages 131-138

   4. Abnormal Ca2+ Transport Characteristics of Hepatoma Mitochondria and Endoplasmic Reticulum

      • Anne N. Murphy, Gary Fiskum

      Pages 139-150

   5. Alkylating Toxins and the Liver Plasma Membrane Calcium Pump/Calcium ATPase

      • Janice O. Tsokos-Kuhn, Helen Hughes, Charles V. Smith, Jerry R. Mitchell

      Pages 151-158

   6. Role of ATP and Na+ in the Regulation of Cytosolic Free Calcium in Kidney Cells

      • André B. Borle

      Pages 159-167

5. The in Vivo Role of Cellular Ca2+ Pumps in Metabolic Regulation

   1. Role of Guanine Nucleotide Regulatory Proteins and Inositol Phosphates in the Hormone Induced Mobilization of Hepatocyte Calcium

      • Peter F. Blackmore, Christopher J. Lynch, Ronald J. Uhing, Thomas Fitzgerald, Stephen B. Bocckino, John H. Exton

      Pages 169-182

This book arose from a meeting held at the University of Washington, Seattle, in July of 1986. The meeting was a satellite symposium of the XXXth International Congress of Physiological Sciences which occurred in Vancouver, canada, at that time. 2 Adjustments in the cytoplasmic Ca + concentration of cells occur in response to a variety of external signals. These fluctuations are a cen­ tral component of one mechanism by which cells adapt their activities to changes in the external environment and to the requirements of whole body 2 homeostatic mechanisms. It is now clear that redistribution of Ca + within 2 intracellular compartments, as well as changes in the rates of Ca + influx and extrusion at the whole cell level, occur during signal-dependent 2 changes in the cytoplasmic Ca + concentration. In summarizing current research in this area, this volume considers first the properties of indi­ vidual cation transporting activities located in various cell membranes. It then moves to the cellular level, where the consequence of individual transporting activities acting in concert is examined. l!D.phasis is also 2 p1 aced on pa tho1 ogica1 conditions which resu1 t in loss of cell Ca + regu1 a­ tion as a part of the disease process. We hope that this approach will help the reader to integrate developments in this large and rapdi1y changing fie1 d.

• cell
• cell membrane
• cells
• cytoplasm
• development
• distribution
• environment
• ion transport
• iron
• membrane
• metabolism
• transport
• Tree Biology

• Hormel Institute, University of Minnesota, Austin, USA

  Douglas R. Pfeiffer

• Department of Medicine, University of Alabama, Birmingham, USA

  Jeanie B. McMillin

• Beckman Instruments, Palo Alto, USA

  Steve Little

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