Description

Book Synopsis

The current state of the science supporting new research in lysophospholipids

The study of lysophospholipids exploded with the discovery of cell surface receptors on both lysophosphatidic acid (LPA) and sphingosine 1-phosphate (S1P). Since then, thousands of original research reports?ranging from fundamental cell signaling to the physiology and pathophysiology of individual organ systems?have centered on lysophospholipids. This book draws together and analyzes the current literature to provide readers with a state-of-the-science review as well as current techniques that support research in all aspects of the field of lysophospholipid signaling.

Lysophospholipid Receptors is divided into three sections:

  • Receptors and other possible effectors
  • Enzymes
  • Physiology and pathophysiology

Within each section, the authors explain the similarities and differences between LPA and S1P signaling. Examples are provided that de

Table of Contents

PREFACE ix

CONTRIBUTORS xi

1 LYSOPHOSPHATIDIC ACID (LPA) RECEPTOR SIGNALING 1
Hope Mirendil, Mu-En Lin, and Jerold Chun

2 SPHINGOSINE 1-PHOSPHATE (S1P) RECEPTORS 41
Bongnam Jung and Timothy Hla

3 GLOBAL GENE EXPRESSION PROGRAM OF LYSOPHOSPHATIDIC ACID (LPA)-STIMULATED FIBROBLASTS 61
Catelijne Stortelers and Wouter H. Moolenaar

4 IDENTIFICATION OF DIRECT INTRACELLULAR TARGETS OF SPHINGOSINE 1-PHOSPHATE (S1P) 71
Nitai C. Hait, Sheldon Milstien, and Sarah Spiegel

5 LYSOPHOSPHOLIPID RECEPTOR SIGNALING PLATFORMS: THE RECEPTOR TYROSINE KINASE–G PROTEIN-COUPLED RECEPTOR SIGNALING COMPLEX 85
Nigel J. Pyne and Susan Pyne

6 AUTOTAXIN: A UNIQUE ECTO-TYPE PYROPHOSPHODIESTERASE WITH DIVERSE FUNCTIONS 103
Hiroshi Yukiura and Junken Aoki

7 STUDIES ON AUTOTAXIN SIGNALING IN ENDOCYTIC VESICLE BIOGENESIS AND EMBRYONIC DEVELOPMENT USING WHOLE EMBRYO CULTURE AND ELECTROPORATION 121
Masayuki Masu, Seiichi Koike, Takuya Okada, and Kazuko Keino-Masu

8 STANDARDIZATION AND QUANTIFICATION OF LYSOPHOSPHATIDIC ACID COMPOUNDS BY NORMAL-PHASE AND REVERSED-PHASE CHROMATOGRAPHY–TANDEM MASS SPECTROMETRY 137
Jeff D. Moore, Shengrong Li, David S. Myers, Stephen B. Milne, H. Alex Brown, and Walter A. Shaw

9 SPHINGOSINE KINASES: BIOCHEMISTRY, REGULATION, AND ROLES 153
Melissa R. Pitman, Kate E. Jarman, Tamara M. Leclercq, Duyen H. Pham, and Stuart M. Pitson

10 FUNCTIONAL AND PHYSIOLOGICAL ROLES OF SPHINGOSINE 1-PHOSPHATE TRANSPORTERS 185
Atsuo Kawahara and Tsuyoshi Nishi

11 LIPID PHOSPHATE PHOSPHATASES AND SIGNALING BY LYSOPHOSPHOLIPID RECEPTORS 201
Ganesh Venkatraman and David N. Brindley

12 LIPID PHOSPHATE PHOSPHATASES: RECENT PROGRESS AND ASSAY METHODS 229
Andrew J. Morris, Susan S. Smyth, Abdel K. Salous, and Andrew D. Renault

13 LYSOPHOSPHATIDIC ACID (LPA) SIGNALING AND CARDIOVASCULAR PATHOLOGY 265
Susan S. Smyth, Anping Dong, Jessica Wheeler, Manikandan Panchatcharam, and Andrew J. Morris

14 SPHINGOSINE 1-PHOSPHATE (S1P) SIGNALING IN CARDIOVASCULAR PHYSIOLOGY AND DISEASE 283
Bodo Levkau

15 SPHINGOSINE 1-PHOSPHATE (S1P) SIGNALING AND THE VASCULATURE 313
Christian Waeber

16 REGULATION OF THE NUCLEAR HORMONE RECEPTOR PPARγ BY ENDOGENOUS LYSOPHOSPHATIDIC ACIDS (LPAS) 349
Ryoko Tsukahara, Tamotsu Tsukahara, and Gabor Tigyi

17 MECHANISMS AND MODELS FOR ELUCIDATING THE CARDIAC EFFECTS OF SPHINGOSINE 1-PHOSPHATE (S1P) 373
Shigeki Miyamoto, Sunny Yang Xiang, Nicole H. Purcell, and Joan Heller Brown

18 NEURAL EFFECTS OF LYSOPHOSPHATIDIC ACID (LPA) SIGNALING 399
Nobuyuki Fukushima

19 WIDESPREAD EXPRESSION OF SPHINGOSINE KINASES AND SPHINGOSINE 1-PHOSPHATE (S1P) LYASE SUGGESTS DIVERSE FUNCTIONS IN THE VERTEBRATE NERVOUS SYSTEM 419
H. Meng and V.M. Lee

20 LYSOPHOSPHATIDIC ACID AND NEUROPATHIC PAIN: DEMYELINATION AND LPA BIOSYNTHESIS 433
Hiroshi Ueda

21 ROLE OF LYSOPHOSPHATIDIC ACID (LPA) IN BEHAVIORAL PROCESSES: IMPLICATIONS FOR PSYCHIATRIC DISORDERS 451
Guillermo Estivill-Torrús, Luis Javier Santín, Carmen Pedraza, Estela Castilla-Ortega, and Fernando Rodríguez de Fonseca

22 SPHINGOSINE 1-PHOSPHATE (S1P) SIGNALING AND LYMPHOCYTE EGRESS 475
Alejandra Mendoza, Lauren A. Pitt, and Susan R. Schwab

23 BIOLOGY REVEALED BY SPHINGOSINE 1-PHOSPHATE (S1P) RECEPTOR GENE-ALTERED MICE 489
Maria L. Allende, Mari Kono, Aikaterini Alexaki, Christina Giannouli, Jiman Kang, Catherine C. Theisen, Eleanor L. Koerner, and Richard L. Proia

24 ROLE OF LYSOPHOSPHATIDIC ACID (LPA) IN THE INTESTINE 507
C. Chris Yun and Peijian He

25 LYSOPHOSPHOLIPID SIGNALING IN FEMALE AND MALE REPRODUCTIVE SYSTEMS 529
Xiaoqin Ye

26 THE GONADS AND THEIR MAGIC BULLET, LYSOPHOSPHATIDIC ACID: PHYSIOLOGICAL AND TOXICOLOGICAL FUNCTIONS OF LYSOPHOSPHATIDIC ACID (LPA) IN FEMALE AND MALE REPRODUCTIVE SYSTEMS 569
Lygia Therese Budnik, Bärbel Brunswig-Spickenheier, and Dieter Müller

27 LYSOPHOSPHOLIPID REGULATION OF LUNG FIBROSIS 587
Barry S. Shea and Andrew M. Tager

28 LYSOPHOSPHATIDIC ACID (LPA) SIGNALING AND BONE 609
Jean Pierre Salles, Sara Laurencin-Dalicieux, Françoise Conte-Auriol, Fabienne Briand-Mésange, and Isabelle Gennero

29 LYSOPHOSPHATIDIC ACID (LPA) SIGNALING AND BONE CANCER 627
Olivier Peyruchaud, Marion David, Timothy L. Macdonald, and Kevin R. Lynch

30 UNDERSTANDING THE FUNCTIONS OF LYSOPHOSPHATIDIC ACID RECEPTORS IN CANCER 641
Nattapon Panupinthu and Gordon B. Mills

31 LYSOPHOSPHATIDIC ACID RECEPTORS IN CANCER 661
Abir Mukherjee, Jinhua Wu, Yongling Gong, and Xianjun Fang

32 LPA RECEPTOR SUBTYPES LPA1 AND LPA2 AS POTENTIAL DRUG TARGETS 681
Gretchen Bain and T. Jon Seiders

33 CLINICAL INTRODUCTION OF LYSOPHOSPHATIDIC ACID (LPA) AND AUTOTAXIN ASSAYS 709
Yutaka Yatomi, Koji Igarashi, Kazuhiro Nakamura, Ryunosuke Ohkawa, Akiko Masuda, Akiko Suzuki, Tatsuya Kishimoto, Hitoshi Ikeda, and Junken Aoki

34 ANTIBODIES TO BIOACTIVE LYSOPHOSPHOLIPIDS 737
Roger A. Sabbadini, Jonathan M. Wojciak, Kelli Moreno, James S. Swaney, and Barbara Visentin

INDEX 753

Lysophospholipid Receptors

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    A Hardback by Jerold Chun, Timothy Hla, Sarah Spiegel

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      Publisher: John Wiley & Sons Inc
      Publication Date: 10/05/2013
      ISBN13: 9780470569054, 978-0470569054
      ISBN10: 0470569050
      Also in:
      Clinical and internal medicine Biology, life sciences

      Description

      Book Synopsis

      The current state of the science supporting new research in lysophospholipids

      The study of lysophospholipids exploded with the discovery of cell surface receptors on both lysophosphatidic acid (LPA) and sphingosine 1-phosphate (S1P). Since then, thousands of original research reports?ranging from fundamental cell signaling to the physiology and pathophysiology of individual organ systems?have centered on lysophospholipids. This book draws together and analyzes the current literature to provide readers with a state-of-the-science review as well as current techniques that support research in all aspects of the field of lysophospholipid signaling.

      Lysophospholipid Receptors is divided into three sections:

      • Receptors and other possible effectors
      • Enzymes
      • Physiology and pathophysiology

      Within each section, the authors explain the similarities and differences between LPA and S1P signaling. Examples are provided that de

      Table of Contents

      PREFACE ix

      CONTRIBUTORS xi

      1 LYSOPHOSPHATIDIC ACID (LPA) RECEPTOR SIGNALING 1
      Hope Mirendil, Mu-En Lin, and Jerold Chun

      2 SPHINGOSINE 1-PHOSPHATE (S1P) RECEPTORS 41
      Bongnam Jung and Timothy Hla

      3 GLOBAL GENE EXPRESSION PROGRAM OF LYSOPHOSPHATIDIC ACID (LPA)-STIMULATED FIBROBLASTS 61
      Catelijne Stortelers and Wouter H. Moolenaar

      4 IDENTIFICATION OF DIRECT INTRACELLULAR TARGETS OF SPHINGOSINE 1-PHOSPHATE (S1P) 71
      Nitai C. Hait, Sheldon Milstien, and Sarah Spiegel

      5 LYSOPHOSPHOLIPID RECEPTOR SIGNALING PLATFORMS: THE RECEPTOR TYROSINE KINASE–G PROTEIN-COUPLED RECEPTOR SIGNALING COMPLEX 85
      Nigel J. Pyne and Susan Pyne

      6 AUTOTAXIN: A UNIQUE ECTO-TYPE PYROPHOSPHODIESTERASE WITH DIVERSE FUNCTIONS 103
      Hiroshi Yukiura and Junken Aoki

      7 STUDIES ON AUTOTAXIN SIGNALING IN ENDOCYTIC VESICLE BIOGENESIS AND EMBRYONIC DEVELOPMENT USING WHOLE EMBRYO CULTURE AND ELECTROPORATION 121
      Masayuki Masu, Seiichi Koike, Takuya Okada, and Kazuko Keino-Masu

      8 STANDARDIZATION AND QUANTIFICATION OF LYSOPHOSPHATIDIC ACID COMPOUNDS BY NORMAL-PHASE AND REVERSED-PHASE CHROMATOGRAPHY–TANDEM MASS SPECTROMETRY 137
      Jeff D. Moore, Shengrong Li, David S. Myers, Stephen B. Milne, H. Alex Brown, and Walter A. Shaw

      9 SPHINGOSINE KINASES: BIOCHEMISTRY, REGULATION, AND ROLES 153
      Melissa R. Pitman, Kate E. Jarman, Tamara M. Leclercq, Duyen H. Pham, and Stuart M. Pitson

      10 FUNCTIONAL AND PHYSIOLOGICAL ROLES OF SPHINGOSINE 1-PHOSPHATE TRANSPORTERS 185
      Atsuo Kawahara and Tsuyoshi Nishi

      11 LIPID PHOSPHATE PHOSPHATASES AND SIGNALING BY LYSOPHOSPHOLIPID RECEPTORS 201
      Ganesh Venkatraman and David N. Brindley

      12 LIPID PHOSPHATE PHOSPHATASES: RECENT PROGRESS AND ASSAY METHODS 229
      Andrew J. Morris, Susan S. Smyth, Abdel K. Salous, and Andrew D. Renault

      13 LYSOPHOSPHATIDIC ACID (LPA) SIGNALING AND CARDIOVASCULAR PATHOLOGY 265
      Susan S. Smyth, Anping Dong, Jessica Wheeler, Manikandan Panchatcharam, and Andrew J. Morris

      14 SPHINGOSINE 1-PHOSPHATE (S1P) SIGNALING IN CARDIOVASCULAR PHYSIOLOGY AND DISEASE 283
      Bodo Levkau

      15 SPHINGOSINE 1-PHOSPHATE (S1P) SIGNALING AND THE VASCULATURE 313
      Christian Waeber

      16 REGULATION OF THE NUCLEAR HORMONE RECEPTOR PPARγ BY ENDOGENOUS LYSOPHOSPHATIDIC ACIDS (LPAS) 349
      Ryoko Tsukahara, Tamotsu Tsukahara, and Gabor Tigyi

      17 MECHANISMS AND MODELS FOR ELUCIDATING THE CARDIAC EFFECTS OF SPHINGOSINE 1-PHOSPHATE (S1P) 373
      Shigeki Miyamoto, Sunny Yang Xiang, Nicole H. Purcell, and Joan Heller Brown

      18 NEURAL EFFECTS OF LYSOPHOSPHATIDIC ACID (LPA) SIGNALING 399
      Nobuyuki Fukushima

      19 WIDESPREAD EXPRESSION OF SPHINGOSINE KINASES AND SPHINGOSINE 1-PHOSPHATE (S1P) LYASE SUGGESTS DIVERSE FUNCTIONS IN THE VERTEBRATE NERVOUS SYSTEM 419
      H. Meng and V.M. Lee

      20 LYSOPHOSPHATIDIC ACID AND NEUROPATHIC PAIN: DEMYELINATION AND LPA BIOSYNTHESIS 433
      Hiroshi Ueda

      21 ROLE OF LYSOPHOSPHATIDIC ACID (LPA) IN BEHAVIORAL PROCESSES: IMPLICATIONS FOR PSYCHIATRIC DISORDERS 451
      Guillermo Estivill-Torrús, Luis Javier Santín, Carmen Pedraza, Estela Castilla-Ortega, and Fernando Rodríguez de Fonseca

      22 SPHINGOSINE 1-PHOSPHATE (S1P) SIGNALING AND LYMPHOCYTE EGRESS 475
      Alejandra Mendoza, Lauren A. Pitt, and Susan R. Schwab

      23 BIOLOGY REVEALED BY SPHINGOSINE 1-PHOSPHATE (S1P) RECEPTOR GENE-ALTERED MICE 489
      Maria L. Allende, Mari Kono, Aikaterini Alexaki, Christina Giannouli, Jiman Kang, Catherine C. Theisen, Eleanor L. Koerner, and Richard L. Proia

      24 ROLE OF LYSOPHOSPHATIDIC ACID (LPA) IN THE INTESTINE 507
      C. Chris Yun and Peijian He

      25 LYSOPHOSPHOLIPID SIGNALING IN FEMALE AND MALE REPRODUCTIVE SYSTEMS 529
      Xiaoqin Ye

      26 THE GONADS AND THEIR MAGIC BULLET, LYSOPHOSPHATIDIC ACID: PHYSIOLOGICAL AND TOXICOLOGICAL FUNCTIONS OF LYSOPHOSPHATIDIC ACID (LPA) IN FEMALE AND MALE REPRODUCTIVE SYSTEMS 569
      Lygia Therese Budnik, Bärbel Brunswig-Spickenheier, and Dieter Müller

      27 LYSOPHOSPHOLIPID REGULATION OF LUNG FIBROSIS 587
      Barry S. Shea and Andrew M. Tager

      28 LYSOPHOSPHATIDIC ACID (LPA) SIGNALING AND BONE 609
      Jean Pierre Salles, Sara Laurencin-Dalicieux, Françoise Conte-Auriol, Fabienne Briand-Mésange, and Isabelle Gennero

      29 LYSOPHOSPHATIDIC ACID (LPA) SIGNALING AND BONE CANCER 627
      Olivier Peyruchaud, Marion David, Timothy L. Macdonald, and Kevin R. Lynch

      30 UNDERSTANDING THE FUNCTIONS OF LYSOPHOSPHATIDIC ACID RECEPTORS IN CANCER 641
      Nattapon Panupinthu and Gordon B. Mills

      31 LYSOPHOSPHATIDIC ACID RECEPTORS IN CANCER 661
      Abir Mukherjee, Jinhua Wu, Yongling Gong, and Xianjun Fang

      32 LPA RECEPTOR SUBTYPES LPA1 AND LPA2 AS POTENTIAL DRUG TARGETS 681
      Gretchen Bain and T. Jon Seiders

      33 CLINICAL INTRODUCTION OF LYSOPHOSPHATIDIC ACID (LPA) AND AUTOTAXIN ASSAYS 709
      Yutaka Yatomi, Koji Igarashi, Kazuhiro Nakamura, Ryunosuke Ohkawa, Akiko Masuda, Akiko Suzuki, Tatsuya Kishimoto, Hitoshi Ikeda, and Junken Aoki

      34 ANTIBODIES TO BIOACTIVE LYSOPHOSPHOLIPIDS 737
      Roger A. Sabbadini, Jonathan M. Wojciak, Kelli Moreno, James S. Swaney, and Barbara Visentin

      INDEX 753

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