InhaltsangabeClaes H. Dohlman Conference Address. 1. Understanding Dry Eye Syndrome; K. Tsubota. Lacrimal Gland: Cellular And Molecular Biology. 2. GDNF Family Signaling in Exocrine Tissues: Distinct Roles for GDNF and Neurturin in Parasympathetic Neuron Development; J. Rossi, M.S. Airaksinen. 3. The Influence of Aging in the Insulin Signaling System in Rat Exocrine Glands; E.M. Rocha, et al. 4. Cloning, Partial Sequencing and Expression of Rabbit Lacrimal Grand beta-Hexosaminidase; J.P. Gierow, et al. 5. Differential Expression of Adenylyl Cyclase mRNAs in Lacrimal Glands of NZB/NZW and NOD Pre-Autoimmune Mice; M.A. Meneray, T.E. Lallier. 6. M3 Receptor Autoimmunity. Losing Tolerance to a Familair Protein; A.K. Mircheff, et al. 15 Additional Chapters. Lacrimal Gland And Ocular Surface: Signal Transduction, Membrane Traffic And Fluid And Protein Secretion. 22. Genetic Separation of the Human Lacritin Gene and Triple A (Allgrove) Syndrome on 12Q13; R. Kumar, et al. 23. Ca2 Signaling in Polarized Exocrine Cells; K. Kiselyov, et al. 24. Role of Ca2+ and Protein Kinase C in Cholinergic and alpha1-Adrenergic Agonists and EGF Stimulated Mitogen-Activated Protein Kinase Activity in Lacrimal Gland; J.D. Ríos, et al. 25. A Model of Fluid Secretion By the Acinar Cells of the Mouse Lacimal Gland; B. Walcott, et al. 26. Cytoskeletal Participation in Stimulated Secretion and Compensatory Apical Plasma Membrane Retrieval in Lacrimal Gland Acinar Cells; S.R. da Costa, et al. 10 Additional Chapters. Mucins: Origin, Properties, RegulationAnd Function. 37. Mechanism by Which Bacterial Flagellin Stimulates Host Mucin Production; N. McNamara, C. Basbaum. 38. Mucins and Ocular Surface Disease; S.H. Hibino, et al. 39. Functional Processing of Ocular Mucins; M. Berry, et al. 40. ERBB2 and its Ligand MUC4 (Sialomucin Complex) in Rat Lacrimal Gland; K.L. Carraway, et al. 41. Role of Mitogen-Activated Protein Kinase in Cholinergic Stimulation of Conjunctival Goblet Cell Secretion; D.A. Dartt, et al. 42. Isolation and Characterization of Human Goblet Cells in vitro: Regulation of Proliferation and Activation of Mitogen-Activated Protein Kinase by EGF and Carbachol; M.A. Shatos, et al. 43. Human Conjunctival Epithelium in Culture: A Tool to Assay New Therapeutic Strategies for Dry Eye; Y. Diebold, et al. 10 Additional Chapters. Meibomian Gland Art Tear Film Lipids: Structure, Function And Control. 54. Meibomian Gland and Tear Film Lipids: Structure, Function and Control; J.P. McCulley, W. Shine. 55. Androgen Regulation of Lipogenesis; J.V. Swinnen, et al. 56. Sex steroids, the Meibomian Gland and Evaporative Dry Eye; D.A. Sullivan, et al. 57. The Lipid Layer and Stability of Tears in Human Newborns; S.J. Isenberg, et al. 58. Interface Properties of Simplified Tear-Like Fluids in Relation of Lipid and Aqueous Layers Composition; F. Miano, et al. 15 Additional Chapters. Ocular Surface Homeostasis I: Tear Film Proteins & Stability. 74. The Tear Film and Defense Against Infection; S.M.J. Fleiszig, et al. 75. Nerve Growth Factor: An Impor

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Claes H. Dohlman Conference Address. 1. Understanding Dry Eye Syndrome; K. Tsubota. Lacrimal Gland: Cellular And Molecular Biology. 2. GDNF Family Signaling in Exocrine Tissues: Distinct Roles for GDNF and Neurturin in Parasympathetic Neuron Development; J. Rossi, M.S. Airaksinen. 3. The Influence of Aging in the Insulin Signaling System in Rat Exocrine Glands; E.M. Rocha, et al. 4. Cloning, Partial Sequencing and Expression of Rabbit Lacrimal Grand beta-Hexosaminidase; J.P. Gierow, et al. 5. Differential Expression of Adenylyl Cyclase mRNAs in Lacrimal Glands of NZB/NZW and NOD Pre-Autoimmune Mice; M.A. Meneray, T.E. Lallier. 6. M3 Receptor Autoimmunity. Losing Tolerance to a Familair Protein; A.K. Mircheff, et al. 15 Additional Chapters. Lacrimal Gland And Ocular Surface: Signal Transduction, Membrane Traffic And Fluid And Protein Secretion. 22. Genetic Separation of the Human Lacritin Gene and Triple A (Allgrove) Syndrome on 12Q13; R. Kumar, et al. 23. Ca2 Signaling in Polarized Exocrine Cells; K. Kiselyov, et al. 24. Role of Ca2+ and Protein Kinase C in Cholinergic and alpha1-Adrenergic Agonists and EGF Stimulated Mitogen-Activated Protein Kinase Activity in Lacrimal Gland; J.D. Ríos, et al. 25. A Model of Fluid Secretion By the Acinar Cells of the Mouse Lacimal Gland; B. Walcott, et al. 26. Cytoskeletal Participation in Stimulated Secretion and Compensatory Apical Plasma Membrane Retrieval in Lacrimal Gland Acinar Cells; S.R. da Costa, et al. 10 Additional Chapters. Mucins: Origin, Properties, Regulation And Function. 37. Mechanism by Which Bacterial Flagellin Stimulates Host Mucin Production; N. McNamara, C. Basbaum. 38. Mucins and Ocular Surface Disease; S.H. Hibino, et al. 39. Functional Processing of Ocular Mucins; M. Berry, et al. 40. ERBB2 and its Ligand MUC4 (Sialomucin Complex) in Rat Lacrimal Gland; K.L. Carraway, et al. 41. Role of Mitogen-Activated Protein Kinase in Cholinergic Stimulation of Conjunctival Goblet Cell Secretion; D.A. Dartt, et al. 42. Isolation and Characterization of Human Goblet Cells in vitro: Regulation of Proliferation and Activation of Mitogen-Activated Protein Kinase by EGF and Carbachol; M.A. Shatos, et al. 43. Human Conjunctival Epithelium in Culture: A Tool to Assay New Therapeutic Strategies for Dry Eye; Y. Diebold, et al. 10 Additional Chapters. Meibomian Gland Art Tear Film Lipids: Structure, Function And Control. 54. Meibomian Gland and Tear Film Lipids: Structure, Function and Control; J.P. McCulley, W. Shine. 55. Androgen Regulation of Lipogenesis; J.V. Swinnen, et al. 56. Sex steroids, the Meibomian Gland and Evaporative Dry Eye; D.A. Sullivan, et al. 57. The Lipid Layer and Stability of Tears in Human Newborns; S.J. Isenberg, et al. 58. Interface Properties of Simplified Tear-Like Fluids in Relation of Lipid and Aqueous Layers Composition; F. Miano, et al. 15 Additional Chapters. Ocular Surface Homeostasis I: Tear Film Proteins & Stability. 74. The Tear Film and Defense Against Infection; S.M.J. Fleiszig, et al. 75. Nerve Growth Factor: An Important Molecule for Trophism and Healing of the Ocular Surface; S. Bonini, et al. 76. Changes in the Diurnal Pattern of the Distribution of Gelatinases and Associated Proteins in Normal and Pathological Tear Fluids. Evidence That the PMN Cell is a Major Source of NNP Activity in Tear Fluid; R.A. Sack, et al. 77. Protection of Human Efferent Tear Ducts by Antimicrobial Peptides; F.P. Paulsen, et al. 78. Tear Lipocalin: Structure, Function and Molecular Mechanisms of Action; B.J. Glasgow, et al. 10 Additional Chapters. Ocular Surface Homeostasis II: Tear Film, Cornea & Conjunctiva Interactions. 89. Enzymatic Mechanisms in Corneal Ulceration with Specific Reference to Familial Dysautonomia: Potential for Genetic Approaches; M.E. Fini, S.A. Slaugenhaupt. 90. Pathological Keratinization of Ocular Surface Epithelium; S. Kinoshita, et al. 91. Experimentally Induced D ...