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E-raamat: Histamine in Inflammation

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Histamine in InflammationSuurem pilt
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The year 2010 marks the centennial for the identification of histamine and the first glimpse of its many physiological functions. From these initial findings a rich tapestry of research has uncovered roles for histamine in almost every physiological process with new findings emerging every year. These diverse roles of histamine have made for fertile ground for the discovery of novel therapeutics, and these drugs have been so successful that the term antihistamine has entered the common lexicon. This volume is an attempt to give a snapshot in time as to the current understanding of the role of histamine in just one important therapeutic areainflammation. The first three chapters provide some background context for the rest of the book starting out with a historical perspective by Figueroa and Shankley. Bongers et al provide an overview of the pharmacology of the four histamine receptors and the chapter by Hiroshi Ohtsu describes how histamine is synthesized as well as the insights derived from mice where this synthesis is disrupted. The next several chapters discuss disease areas where histamine is known to be involved. Chapter 4 by Thomas Taylor-Clark outlines the role of histamine in allergic rhinitis, an area were antihistamines are commonly used. This is also true for ocular allergy as discussed by Ohbayashi et al. Both of these chapters highlight aspects of these conditions that are still not well-controlled and suggest the utility of new antihistamines targeting other histamine receptors.
1 One Hundred Years of Histamine Research
1(10)
Katherine Figueroa
Nigel Shankley
Abstract
1(1)
Introduction
1(1)
Exploring the Physiological Effects of Histamine
2(1)
The First Antihistamines
2(1)
Pharmacological Definition of Histamine H1 and H2 Receptors
2(1)
Pharmacological Definition of the Histamine H3 Receptor
3(1)
Pharmacological Definition of the Histamine H4 Receptor
4(1)
The Molecular Biological Characterization of Histamine Receptors
4(1)
Alternative Intracellular Signaling of Histamine Receptors
5(1)
Generations of Histamine Targeted Genetically Modified Mice
5(1)
Conclusion
6(5)
2 Molecular Pharmacology of The Four Histamine Receptors
11(10)
Gerold Bongers
Iwan de Esch
Rob Leurs
Abstract
11(1)
The Discovery of the Four Histamine Receptors: An Historical Overview
11(1)
Histamine Receptors, Signal Transduction and Their Ligands
12(1)
The Histamine H1 Receptor and Its Ligands
12(1)
The Histamine H2 Receptor and Its Ligands
13(1)
The Histamine H3 Receptor and Its Ligands
14(2)
The Histamine H4 Receptor and Its Ligands
16(1)
Conclusion
16(5)
3 Histamine Synthesis and Lessons Learned From Histidine Decarboxylase Deficient Mice
21(12)
Hiroshi Ohtsu
Abstract
21(1)
Introduction
21(1)
HDC Transcriptional Regulation
22(1)
Epigenetic Regulation of HDC Gene Expression
22(1)
L-Histidine Decarboxylase Gene Knockout Mice
23(1)
Histamine and Immunity
23(1)
Histamine in Wound Healing
23(1)
Histamine in Malaria
24(1)
Histamine in Crohn's Disease
25(1)
Histamine in Allergic Bronchial Asthma
25(2)
Histamine in Systemic Anaphylaxis Model
27(1)
Histamine in Atherosclerosis
27(1)
Histamine Uptake into and Release from Histamine Producing Cells
28(1)
Conclusion
28(5)
4 Histamine in Allergic Rhinitis
33(10)
Thomas Taylor-Clark
Abstract
33(1)
Introduction
33(1)
Histamine and the Early Phase Response in Allergic Rhinitis
34(1)
H1 Receptors: Sensory Nerve Activation and Central Reflexes
34(2)
H1 Receptors and the Nasal Vasculature
36(1)
Other Histamine Receptors in the Early Phase Response
36(1)
Histamine Receptors and Immune Modulation
37(1)
Conclusion
38(5)
5 The Role of Histamine in Ocularallergy
43(10)
Masaharu Ohbayashi
Bita Manzouri
Kei Morohoshi
Ken Fukuda
Santa J. Ono
Abstract
43(1)
Introduction
43(1)
Clinical Manifestations of Ocular Allergy
43(2)
Current Treatments for Ocular Allergy
45(1)
Allergic Responses in the Conjunctiva
45(2)
Mast Cells in the Conjunctiva
47(1)
Histamine in the Conjunctiva
47(1)
Histamine and the Conjunctival Barrier
47(1)
Histamine Receptors in the Conjunctiva
48(1)
Tissue-Specific Roles of Histamine Receptors
49(2)
Conclusion
51(2)
6 The Role of Histamine in Asthma
53(14)
Paul J. Dunford
Stephen T. Holgate
Abstract
53(1)
Introduction
53(1)
Histamine in the Asthmatic Airway
53(1)
Physiologic Role for Histamine in Lung and Asthma
54(1)
Immunological Modulation by Histamine
55(4)
Histamine in Animal Models of Asthma
59(1)
Antihistamines and Clinical Asthma
60(2)
Conclusion
62(5)
7 Antihistamines in the Treatment of Urticaria
67(6)
Torsten Zuberbier
Marcus Maurer
Abstract
67(1)
Introduction
67(3)
Management of Urticaria Follow Basic Principles
70(1)
Conclusion
71(2)
8 Histamine and Antihistamines in Atopic Dermatitis
73(8)
Jorg Buddenkotte
Marcus Maurer
Martin Steinhoff
Abstract
73(1)
Histamine
73(1)
Histamine Receptors
74(1)
Histamine in Atopic Dermatitis
75(1)
Antihistamines and Histamine Receptor Antagonism in Atopic Dermatitis
76(1)
Clinical Studies of Antihistamines in Atopic Dermatitis
77(1)
Conclusion
77(4)
9 Histamine, Immune Cells and Autoimmunity
81(14)
Elke Schneider
Maria Leite-de-Moraes
Michel Dy
Abstract
81(1)
Introduction
81(1)
Histamine and Immune Cells
82(4)
Histamine and Autoimmunity
86(3)
Conclusion
89(6)
10 Histamine in Neurotransmission and Brain Diseases
95(14)
Saara Nuutinen
Pertti Panula
Abstract
95(1)
Histaminergic Neurons
95(1)
Histamine Synthesis, Storage, Release and Catabolism
96(1)
Histamine Receptors in the Brain
97(5)
Conclusion
102(7)
11 Histamine in Normal and Malignant Cell Proliferation
109(16)
Andras Falus
Zoltan Pos
Zsuzsanna Darvas
Abstract
109(1)
Histamine and Cell Proliferation
109(1)
Histamine in Normal Cell Proliferation
109(4)
Tumor Formation---Principles
113(1)
Histamine in Benign and Malignant Tumors
114(3)
Human Tumors
117(2)
Histamine Blood Levels in Cancer Patients
119(1)
Effect of Histamine on Immune Regulation
120(1)
Conclusion
120(5)
12 The Future Antihistamines: Histamine H3 and H4 Receptor Ligands
125(16)
Fuqu Yu
Pascal Bonaventure
Robin L. Thurmond
Abstract
125(1)
Introduction
125(1)
Potential Indications for H3R Ligands
126(4)
Potential Indications for H4R Ligands
130(5)
Conclusion
135(6)
Index 141
Robin L. Thurmond, PhD is a Compound Development Team Leader with the Clinical Research group at Johnson & Johnson Pharmaceutical Research & Development in La Jolla, California. Prior to that he was a Research Fellow with the Immunology Drug Discovery group at the same site. He received his BA in Chemistry from the University of Virginia and his PhD in Biochemistry from the University of Arizona. Dr. Thurmond studied membrane biophysics at the University of Arizona and worked on the molecular aspects of rhodopsin function during his postdoctoral training at the Massachusetts Institute of Technology with Dr. Gobind Khorana. He began his career with Johnson & Johnson in 1996 at the RW Johnson Pharmaceutical Research Institute in Raritan, New Jersey, and has been with Johnson & Johnson for over 14 years. Dr. Thurmond currently resides in San Diego, California.
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