دانلود کتاب Marker Proteins in Inflammation: Volume 2 Proceedings of the Second Symposium Lyon, France, June 27–30, 1983

فهرست مطالب :

Preface\nContents\nSection I. The Inflammatory Response And Acute Phase Reactant Proteins\nInduction and Control of Acute Phase Reactant Synthesis\nUse of Immunomorphological Methods and Hemolytic Plaque Tests to Investigate the Synthesis and Secretion of Plasma Proteins by the Liver Cells During the Acute Inflammatory Reaction\nProgress in Plasma Proteins: Recent Findings on the Structure of Ceruloplasmin\nRecent Findings on the Isoelectric Points of Human C-Reactive Protein\nSAA is a more Sensitive Marker for Chronic Inflammatory Disease than C-Reactive Protein or α₁-Acid Glycoprotein\nElastase-α₁ Proteinase Inhibitor Complex (E-α₁PI) and C-Reactive Protein (CRP): Early Indicators of Inflammatory Processes\nHuman Kallikrein-Kininogen-Kinins (KKK) System and Acute- Phase Reactant Proteins (APRP) in Humans Undergoing Extracorporeal Circulation (ECC)\nEffect of Non Sterodial Anti-Inflammatory Drug (Niflumique Acide) on Acute Phase Protein Response\nTranscortin Activities, Cortisol and Progesterone in Pathological Sera: Inflammation, Septic Shock, Renal and Cardiac Diseases\nMeasurement of Human High Molecular Weight Kininogen (HMW-K) by Laser Nephelometry\nSection II. Biological Roles Of Acute Phase Reactant Proteins\nFunctions of Acute Phase Proteins in the Inflammatory Response\nInteraction of the Acute Phase Reactants α₁-Acid Glycoprotein, C-Reactive Protein and Serum Amyloid P-Component with Platelets and the Coagulation System\nMonoclonal Antibodies as Probes of Complement Function\nModulation of Formation of the C3 Amplification Convertase of Human Complement by Acute Phase Proteins\nMaterno-Trophoblastic Relationship in Normal Human Pregnancy and Recurrent Spontaneous Abortion\nChemotactic Factors in the Airspaces that may Modulate Inflammation\nSection III. Protease Anti-Protease Interactions And Lung Diseases\nHuman α₁-Antichymotrypsin: Purification, Properties and Reactions with some Serine Proteases\nAlpha₁-Antitrypsin-Protease Interactions: The Biological Aspect\nOn the Interaction Between Human Liver Cathepsin L and the two Cysteine Proteinases Inhibitors Present in Human Serum\nModulation of Human Lymphocyte Responses by α₁ -Antitrypsin and α₂-Macroglobulin\nMediators of Inflammation in Inflammatory Alveolitis\nIdiophathic Pulmonary Fibrosis. Multiparametric Evaluation of Alveolar Lymphocyte and Macrophage Activation\nThe Alpha, Proteinase Inhibitor of the Lower Respiratory Tract. Effect of Cigarette Smoking\nCollagenolytic Enzymes and Fibrosis of the Lung\nElastolytic Activities and Proteinase Inhibitors in Sputum from Patients with Cystic Fibrosis\nSerum Derived Proteins and Antibacterial Proteins in Cystic Fibrosis Sputum\nAlveolar Fibronectin and Interstitial Lung Diseases\nSarcoidosis: IgG, β₂ Microglobulin and Evolutivity\nα₁-Proteinase Inhibitor in Meconium from Healthy Infants and Infants with Cystic Fibrosis\nQualitative Analysis of Proteins of Alveolar Fluid: A Study by Ultra-Thin Layer Immunoelectrophoresis and Electrofocusing\nProtease-Antiprotease Imbalance in Lung Diseases\nSection IV. Inflammation And Articular Diseases\nThe Acute Phase Response in Connective Tissue Disease\nThe GLA-Containing Protein of Bone\nRole of an Acute Phase Reactant, Retroviral gp70, in Murine SLE\nStudy of 8 Marker Proteins of Inflammation in Synovial Fluid and Serum of Patients with Joint Diseases\nFibronectin in Arthropathies\nSection V. Inflammatory Diseases Of Nervous System\nMultiple Sclerosis: Clues for a Pathogenesis\nImmunoglobulins in Neuropathology\nCellular Inflammatory Response in Cerebrospinal Fluids\nEvaluation of CSF Lymphocyte Subsets Using the OKT Series of Monoclonal Antibodies (OKT₃₊, OKT₄₊, OKT₈₊) in Various Neurological Diseases\nCytological Study and Protein Profile in Cerebrospinal Fluid, Before and During Treatment of Neurosyphilis\nCerebrospinal Fluid Cytology and Protein Parameters in 219 Multiple Sclerosis\nInterpretation of the Protein Profile of Cerebrospinal Fluid in Children\nCerebrospinal Fluid Ferritin: Interest as Biological Marker of Central Nervous System Tumors\nClinical Relevance of Beta 2 Microglobulin Levels of the Cerebrospinal Fluid in Children with Acute Encephalitis\nElectrophoretical Patterns of Acetylcholinesterase in Cerebrospinal Fluid\nCholinesterase Isoenzymes of Cerebrospinal Fluid and Guillain-Barre Syndrome\nLymphocytotoxic and Monocytotoxic Antibodies in Multiple Sclerosis\nInterest of a High Resolution Agarose Gel Electrophoresis System (Panage^R) with a Silver Staining Revelation in the Study of Cerebrospinal Fluid (CSF) Immunoglobulin G\nTwo Dimensional Electrophoresis of CSF Proteins: Electrophoresis Quality Control\nSection VI. Inflammation And Malnutrition\nAnthropometric and Biological Characterization of Malnutrition States in Man\nNew Findings on the Role of Zinc as a Biological Response Modifier\nImmunodeficiency in Protein or Vitamin A Deprived Mice\nImmunological Consequences of Protein Deprivation in Primates\nSerum Thymic Factor (FTS) Contents of the Thymus in Undernourished Senegalese Children\nThe Clinico-Pathological Consequences of Severe Protein- Energy Malnutrition in Deceased Senegalese Children\nProtein Profile and Thymic Function in Protein-Energy Malnutrition without Surimposed Infections: Anorexia Nervosa\nMalnutrition in Cancer and Cachectic Patients\nMarker Proteins of Inflammation and Nutrition in Advanced Cancer\nNutritional and Inflammatory Status in 26 Cases of Malignant Hemopathies of the Infancy\nComparison between CRP Serum Values and Hematological Parameters for Diagnosis and Therapeutic Surveillance of Neonatal Infections\nContribution of Principal Components Analysis to the Study of Inflammatory and Nutritional Status on Intensive Care Patients\nEffects of Nutrition on the Post-Operative Serum Levels of Prealbumin (PA), Transferrin (T) and Fibronectin (FN)\nSurgery Induced Modifications of Plasma Protein Levels\nStudy of 8 Plasma Proteins during a Case of Severe Heat Stroke\nSerum Protein Profile Evolution after Sub-Total Hepatectomy\nMalnutrition and Immunity in Chronic Heavy Drinkers with and without Cirrhosis\nBiological Nutritional Markers which Poorly Reflect the Activity of Crohn\'s Disease\nPrediction of Success or Failure of Parenteral Alimentation in the Treatment of Severe Forms of Crohn\'s Disease and Rectocolitis\nAlbumin Assay with Astra 8 by a Technique Using Bromocresol Green: Quality Criteria, Comparison with Nephelometry\nQuantitative Estimate of the Nutrional Status Through the Measurement of the Electrical Body Impedence\nSection VII. Marker Proteins In Experimental Models Of Inflammation\nCharacterization of Circulating Alpha-1-Acid-Glycoprotein in Normal and Inflammatory Mice\nThe Inflammatory Reaction of the Developing Rat: Responses of Serum Steroid Hormones and Proteins\nThe Effects of Ethinyl-Oestradiol and of Acute Inflammation on the Plasma Level of Rat Alpha 1-Acid Glycoprotein and on the Cell-Free Translation of its Hepatic mRNA\nEvidence for the Identy Between Alpha 1-Cysteine- Proteinase-Inhibitor and Alpha 1-Acute-Phase Globulin in Rat Serum\nChanges in Concentration of Five Rat Serum Proteinase- Inhibitors During Experimental Diabetes. Possible Relevance to Non Enzymatic Glycosylation\nAcute Phase Reactants, Thromboxane and Prostacyclin During Calcium Pyrophosphate-Induced Pleurisy in the Rat\nStudy of the Glycosylated Variants of Chicken Haptoglobin\nEvidence for the Presence in Chicken Plasma of a Ligand for Haptoglobin which Differs from Hemoglobin\nEffect of an Acute Inflammatory Reaction on the Haptoglobin, Albumin, Cytochrome P-450 Contents and Glucose- 6-Phosphatase Activity in Hepatic Microsomal Fractions in the Rat\nCircadian Variation in PMN-Migration Induced by Live BCG in Swiss Mice\nSection VIII. Lectins\nIntroductive Notes\nPart 1: Lectins as Tools\nLectins as Tools\nThe Use of Lectins to Study Changes in Rat Membrane Glycoproteins Induced by Oral Contraceptives\nIdentification of Cytoplasmic and Membrane Platelet Glycoproteins Using a Combination of SDS-Polyacrylamide Gel Electrophoresis and 125₁-Labelled Lectins\nCharacterization of Human Epidermal Glycoproteins Recognized by the Lectins Con A and PNA\nFluorescent Lectins and Quantitative Microscopy\nEffects of Serum on Lectin-Induced Lymphocyte Proliferation\nConcanavalin A and Prothrombin Complex\nModification of Thymidine Transport in Lectin- Stimulated Lymphocytes\nInduction of a Thymidine Metabolisme Enzyme in Human Lymphocytes Stimulated by the Robinia pseudoacacia Lectin\nLectins of Robinia pseudoacacia\nSpecificity of Human Plasma Fibronectin Towards Biomaterials\nStudy of the Glycosylated Populations of Plasma Alpha 1-Acid Glycoprotein in Human Breast Cancer Patients Treated with Tamoxifen\nPhysico-Chemical and Biochemical Characteristics of the Con-A Reactive and Non Reactive Molecular Variants of Human Alpha 1-Acid Glycoprotein\nPart 2: Biological Functions of Lectins\nBiological Functions of Lectins\nLocalization and Biosynthesis of Lathyrus ochrus Seeds Lectin\nSurface and Total Receptors for Asialoglycoproteins in Hepatocytes from Diabetic Rats\nPart 3: Affinity and Specificity of Lectins\nLectin(s) - Ligand(s) Interactions\nA Comparative Study of Affinity Constants Measured by Different Methods, Between Peanut Lectin and Sugars with Galactosyl Modified on C(6) or C(1)\nEffect of pH on Binding Properties of Peanut Agglutinin (PNA)\nUse of Lectins to Examine the Microheterogeneity of Rat Hemopexin\nAuthor Index\nSubject Index