H. Herken scite author profile

H. Herken

5Publications

67Citation Statements Received

20Citation Statements Given

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251

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Affiliations

Freie Universität Berlin, Centrum für Integrierte Onkologie, Franziskus-Krankenhaus Berlin

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Functional Disorders of the Brain Induced by Synthesis of Nucleotides Containing 3-Acetylpyridine

Herken¹

1968

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Experiments on the mechanism of pharmacological effects on the central nervous system have led to the discovery of a lack of specificity of certain enzymes in living cells, which may cause biosyntheses of toxic compounds. R. A. PETERS, who observed this phenomenon during his experiments on the toxic effects of fluoroacetate, called it "lethal synthesis". Similar observations can also be made, if antimetabolites of nicotinamide are used, because the lack of specificity of a nucleosidase (NADP-glycohydrolase EC 3.2.2.6) within the endoplasmatic reticulum of the brain cells leads to the biosynthesis of pyridine nucleotides which slow down or completely inhibit the hydrogen transfer between enzyme and substrate of different oxidoreductases. If 3-acetylpyridine is administered to rats in a dose of 80 mg/kg, the formation of nucleotides containing 3-acetylpyridine is the cause of different neurological deficiency symptoms, which include convulsive fits occurring at intervals and permanent disturbances of nervous functions, such as hyperkinesis and ataxic gait. The long lasting deficiency symptoms, which can frequently be shown for more than one year, can be considered as pathobiosis in the sense of the definition given by HEUBNER. In isolated brain microsomes, containing a high nucieosidase activity, the synthesis of the dinucleotide phosphate (3-acetylpyridine adenine dinucleotide phosphate) is greater than that of the dinucleotide in the same time and under the same conditions. Spectrofluorometric examinations of brains of rats which had received 3-acetylpyridine also confirmed this preferred biosynthesis of 3-APADP in vivo. The compound was identified in all the brain sections examined, but the highest values were found in the hippocampus of the rat. During the examination of NADP-dependent enzymes the discovery was made, that probably the pentose phosphate cycle is especially concerned. Thereby lower reduction equivalents than in normal cells are made available for the maintenance of the metabolism during the same time unit. The activity of NADP-dependent enzymes of the pentose phosphate cycle is not the same in all brain regions. During the examination of the glucose 6-phosphate dehydrogenase (EC 1.1.1.49) the highest turnover rates were found in the hippocampus. The kinetics of the malic enzyme (EC 1.1.1.40) discovered by OCHOA are modified in a very peculiar manner, the reaction from malate to pyruvate with 3-APADP acting as hydrogen acceptor being much faster than with the natural coenzyme. The reverse reaction -pyruvate to malate -was greatly slowed down in presence of 3-APADPH 2 . 3-APADP can also act as inhibitor-in presence of NADP, if more than 50% of the natural coenzyme is present as the derivative of 3-acetylpyridine. For the comprehension of the long lasting effects of 3-acetylpyridine on the central nervous system, the diminution of the function of the folic acid reductase (EC 1.5.1.3) is probably of importance. Examinations of the RNA-polymerase (EC 2.7.7.6) of the brain nuclei and mitochondria show...

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Tetrahydrobiopterin and Total Biopterin Content of Neuroblastoma (N1E‐115, N2A) and Pheochromocytoma (PC‐12) Clones and the Dependence of Catecholamine Synthesis on Tetrahydrobiopterin Concentration in PC‐12 Cells

Bräutigam

Dreesen

Herken

1984

Journal of Neurochemistry

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Tetrahydrobiopterin content was determined in several clonal cell lines by reversed-phase HPLC and subsequent electrochemical detection. The same chromatography system was used to determine the total biopterin (tetrahydrobiopterin and 7,8-dihydrobiopterin) by fluorescence detection. The catecholamine-producing clones neuroblastoma N1E-115 and pheochromocytoma PC-12 contained 96 and 60 ng tetrahydrobiopterin/mg protein, respectively. The corresponding amount for the neuroblastoma clone N2A was 36 ng/mg protein. The tetrahydrobiopterin content in C-6 glioma cells was below the limit of detection. The total biopterin is about 20% above the tetrahydrobiopterin content. Tetrahydrobiopterin and biopterin from the cells were identified by coelution with standard solutions and by potential-current relationship or emission and excitation spectra, respectively. Addition of 2,4-diamino-6-hydroxypyrimidine, an inhibitor of biopterin synthesis from GTP, to the culture medium of PC-12 cells resulted in a dose-dependent decrease of tetrahydrobiopterin and total biopterin content within 4 h, suggesting that the cells are capable of synthesising the biopterin which was found. A decrease in intracellular tetrahydrobiopterin levels by different concentrations of 2,4-diamino-6-hydroxypyrimidine reduces the cellular production of dihydroxyphenylalanine after inhibition of aromatic L-amino acid decarboxylase, indicating that the concentration of tetrahydrobiopterin might be a limiting factor for catecholamine synthesis in catecholamine-producing cells.

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Antimetabolic Action of 6-Aminonicotinamide on the Pentose Phosphate Pathway in the Brain

Herken

1971

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Brain disorders induced by pharmacological blockade of the pentose phosphate pathway

Herken

Lange

Kolbe

1969

Biochemical and Biophysical Research Communications

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Der Kohlenhydratstoffwechsel des Gehirns nach Blockade des Pentose-Phosphat-Weges durch 6-Aminonicotinsäureamid

Lange¹,

Kolbe²,

Keller³

et al. 1970

Hoppe-Seyler´s Zeitschrift für physiologische Chemie

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H. Herken

Functional Disorders of the Brain Induced by Synthesis of Nucleotides Containing 3-Acetylpyridine

Tetrahydrobiopterin and Total Biopterin Content of Neuroblastoma (N1E‐115, N2A) and Pheochromocytoma (PC‐12) Clones and the Dependence of Catecholamine Synthesis on Tetrahydrobiopterin Concentration in PC‐12 Cells

Antimetabolic Action of 6-Aminonicotinamide on the Pentose Phosphate Pathway in the Brain

Brain disorders induced by pharmacological blockade of the pentose phosphate pathway

Der Kohlenhydratstoffwechsel des Gehirns nach Blockade des Pentose-Phosphat-Weges durch 6-Aminonicotinsäureamid

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