Your search keyword '"Reiber, H."' showing total 207 results

201. Vitamin B-6-catalyzed beta-elimination of serine and O-phosphoserine. Qualitative and quantitative aspects of catalytic influences at the rate-limiting step, a comparison with the rate of enzymatic beta-elimination.

Author

Reiber H

Subjects

Binding Sites, Chemical Phenomena, Chemistry, Hydrogen-Ion Concentration, Hydrolysis, Kinetics, Mathematics, Pyridoxal Phosphate analogs & derivatives, Schiff Bases, Organophosphorus Compounds, Pyridoxal Phosphate pharmacology, Serine

Abstract

The overall reaction rates for the beta-elimination of serine and O-phosphoserine, catalyzed by various vitamin B-6 analogs (pyridoxal 5'-phosphate, 5'-deoxypyridoxal and N-methylpyridoxal 5'-phosphate) in the presence or absence of Cu2+ ions, are determined. The comparison of the pH-dependence of the molar activities of the three vitamin B-6 aldehydes in beta-elimination of serine enables the characterization of the different active Schiff base species and the single catalytic events. The Schiff base which has a positive charge on the pyridine ring nitrogen and a fully ionized phosphate group shows the highest molar activity. The phosphate group acts as an intramolecular general base catalyst, most probably at the alpha-carbon proton of the amino acid. Furthermore general acid catalysis by buffer species occurs at the beta-hydroxy group serine. These facts together provide a kinetically unambiguous description of the mechanism of the reaction: the removal of the proton at the alpha-carbon atom of serine is the rate-limiting step and is followed by the more rapid elimination of the b-hydroxy group of serine. The forward rate constant of the rate-limiting step is calculated for each of the reactions mentioned. The rate constants are compared with respect to the effectiveness of the individual catalytic components in the vitamin B-6-dependent beta-elimination. For optimal conditions the reaction of O-phosphoserine is faster by a factor of 10(4) in the velocity of the beta-elimination than the corresponding acid-catalyzed beta-elimination of serine. For the eliminations at the alpha- and beta-carbon atoms of O-phosphoserine in vitamin B-6-catalysed reactions a common transition state is discussed. From a comparison of the fastest vitamin beta-6-dependent model reaction with the rate of an enzymatic beta-elimination it is suggested that for those beta-elininating enzymes where the rate-limiting step is the same as in the model, the catalytic components mentioned could suffice to explain the velocity of the rate-limiting step.

Published

1976

202. [Calculation of the IgG fraction of cerebrospinal fluid locally synthesized in the central nervous system (author's transl)].

Author

Reiber H

Subjects

Albumins cerebrospinal fluid, Humans, Immunoglobulin G biosynthesis, Regression Analysis, Serum Albumin analysis, Immunoglobulin G cerebrospinal fluid

Abstract

The cerebrospinal fluid (CSF)/serum concentration ratios of immunoglobulin G and albumin were determined for a group of n = 334 control patients. The correlation coefficient relating the two quotients was r = 0.71. The regression line was found to be y = 0.41 x + 0.00014. For statistical and functional reasons it is plausible that the theoretical line should go through the origin. The ocrresponding function would than be y = 0.43 x. The confidence range of the IgG quotient (y) for a given albumin quotient (x) is characterised by +/- 2 Sy.x = +/- 0.001 (Sy.x is the standard deviation of the y values from the regression line). If the IgG quotient is evaluated for the individual albumin ratio of the patient, the following formula can be used for calculation of the locally synthesized concentration of pathological IgG (IgGp) in CSF: IgGp = IgG(CSF) - (0.43 Alb(Serum)-Alb(CSF) + 0.001) . IgG(Serum). This method of determination is independent of the variables which are known to influence the individe, sex, individual blood brain barrier condition, extraction volume of CSF and the method used for protein determination. In comparison with other methods, particularly with respect to the statistics and biochemistry, the reported formula allows an optimal evaluation of pathological IgG values in CSF.

Published

1979

203. Protein transfer at the blood cerebrospinal fluid barrier and the quantitation of the humoral immune response within the central nervous system.

Author

Reiber H and Felgenhauer K

Subjects

Albumins cerebrospinal fluid, Humans, Immunoglobulin A analysis, Immunoglobulin A cerebrospinal fluid, Immunoglobulin G analysis, Immunoglobulin G cerebrospinal fluid, Immunoglobulin M analysis, Immunoglobulin M cerebrospinal fluid, Immunoglobulins analysis, Mathematics, Nervous System Diseases blood, Nervous System Diseases immunology, Serum Albumin metabolism, Blood-Brain Barrier, Immunoglobulins cerebrospinal fluid, Nervous System Diseases cerebrospinal fluid

Abstract

The cerebrospinal fluid (CSF)/serum concentration quotients of albumin and the immunoglobulins G, A and M have been determined for 396 patients with a normal blood CSF barrier function or a pure barrier impairment without a humoral immune response within the central nervous system. The ratios between the concentration quotients of the three immunoglobulins and that of albumin increase in a nonlinear fashion with progressive impairments of the blood CSF barrier, i.e. the molecular size dependent discrimination of the protein transfer ('selectivity') decreases. The upper reference values of the concentration quotients for the whole range of passive transfer comply with the hyperbolic function: Q(IgX) = a/b square root Q(Alb)2 + b2 - c with different constants a/b, b2, c for IgG (0.8, 15 X 10(-6), 1.8 X 10(-3), IgA (0.72, 80 X 10(-6), 5.1 X 10(-3) and IgM (0.65, 150 X 10(-6), 7.5 X 10(-3). With these discriminatory functions the locally synthesized fractions IgX(loc) of IgG, IgA and IgM in CSF can be calculated by the general formula: IgX(loc) = [Q(IgX) - a/b square root Q(Alb)2 + b2 + c] X IgX(Ser).

Published

1987

204. Cellular immune reactions and blood cerebrospinal fluid barrier dysfunction in guinea pigs.

Author

Reiber H, Kitze B, Link M, and Wagner R

Subjects

Animals, Central Nervous System Diseases blood, Central Nervous System Diseases cerebrospinal fluid, Cyclosporins pharmacology, Freund's Adjuvant pharmacology, Guinea Pigs, Immunity, Cellular, Leukocyte Count drug effects, Lymphocytes pathology, Neutrophils pathology, Osmolar Concentration, Serum Albumin analysis, Serum Albumin cerebrospinal fluid, Central Nervous System Diseases immunology

Abstract

Both young and adult strain 13 guinea pigs have been treated with complete Freund's adjuvant (CFA). In young animals CFA induced an increase in the lymphocyte cell count in blood and a reversible blood CSF barrier impairment. Both these effects could be suppressed by the immunosuppressant drug Cyclosporin A. In contrast to the young animals treatment with CFA in adult strain 13 guinea pigs influenced neither the lymphocyte cell count nor blood CSF barrier function. In young and adult CFA-treated animals the number of polymorphonuclear cells in blood were increased and this increase was not reversed by Cyclosporin A. We discuss the influence of a systemic immune stimulation and suppression on blood CSF barrier function for proteins and its relevance to the pathogenesis of inflammatory diseases of the central nervous system.

Published

1988

205. Sensitive quantitation of carcinoembryonic antigen in cerebrospinal fluid and its barrier-dependent differentiation.

Author

Reiber H, Jacobi C, and Felgenhauer K

Subjects

Blood-Brain Barrier, Brain Neoplasms immunology, Brain Neoplasms secondary, Carcinoembryonic Antigen analysis, Humans, Immunoenzyme Techniques, Neoplasms immunology, Reference Values, Carcinoembryonic Antigen cerebrospinal fluid

Abstract

Modification of an enzyme immunoassay using beads as solid phase allows the detection of 3 pg/ml carcinoembryonic antigen (CEA). The beads are shown to be advantageous for the extraction of proteins in highly diluted antigen solutions thus replacing a need for concentration of the sample. The mean concentration of CEA in pooled cerebrospinal fluid (CSF) from 120 control persons was shown to be 2.7 pg/ml. The mean of the CSF/serum concentration quotients of CEA was 0.0015 for normal blood CSF barrier function with a corresponding mean albumin CSF/serum quotient of 0.0048. From the ratio of these two quotients (QCEA/QA = 0.31) and the corresponding biological variation we constructed the normal range of an evaluation graph. In the range of a blood CSF barrier dysfunction, the discrimination line between values with or without a local CEA synthesis in brain was determined to be QCEA = 0.7 QA. Twenty-five out of 383 control persons and 29 out of 45 patients with a tumor metastasis had evaluable quotients. The evaluation graph had a high significance with respect to the identification of tumor metastasis: from a group of patients with a confirmed leptomeningeal metastasis 13 out of 13 and from a group of patients with intraparenchymatous tumor metastasis 10 out of 16 could be identified by CSF analysis. The CEA CSF/serum concentration quotient fits well in the concept of a molecular size-dependent filter function of the blood CSF barrier.

Published

1986

206. The discrimination between different blood-CSF barrier dysfunctions and inflammatory reactions of the CNS by a recent evaluation graph for the protein profile of cerebrospinal fluid.

Author

Reiber H

Subjects

Albumins cerebrospinal fluid, Humans, Immunoglobulin G cerebrospinal fluid, Inflammation, Reference Values, Blood-Brain Barrier, Central Nervous System Diseases cerebrospinal fluid, Cerebrospinal Fluid Proteins analysis

Abstract

A graph for the evaluation of the CSF-protein profile is presented as a basic program for the clinical-neurochemical laboratory. The graph has the following advantages: Simultaneous information on the functional state of the blood-CSF barrier and the inflammatory response of the CNS; maximal sensitivity for the determination of a pathological local IgG production in CNS--with the possibility of calculating the IgG fraction in CSF originating from the CNS; minimal number of protein assays necessary (albumin and IgG in serum and CSF); suitable for the demonstration of the course of the disease in a single patient as well as for demonstration of a group of cases for statistical purposes. Complementary chemical investigations and the correspondence with the clinical diagnosis are discussed for a number of typical cases. Two different types of blood-CSF barrier dysfunctions are discriminated by a proportional and a dis-proportionate increase of the CSF/serum protein concentration gradients.

Published

1980

207. [The effect of divicine on human erythrocytes (author's transl)].

Author

Flohé L, Niebch G, and Reiber H

Subjects

Favism blood, Glucosephosphate Dehydrogenase Deficiency blood, Glutathione blood, Humans, Lipids blood, Peroxides blood, Peroxides metabolism, Potassium blood, Pyrimidines adverse effects, Pyrimidines blood, Erythrocytes drug effects, Glucosephosphate Dehydrogenase blood, Pyrimidines pharmacology

Published

1971