Sabine Linne scite author profile

Sabine Linne

3Publications

42Citation Statements Received

41Citation Statements Given

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Affiliations

Kiel University, Universitätskinderklinik

Publications

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Microsomal Catalyzed N-Hydroxylation of Guanabenz and Reduction of the N-Hydroxylated Metabolite: Characterization of the Two Reactions and Genotoxic Potential of Guanoxabenz¹

Clement

Demesmaeker

Linne

1996

Chem. Res. Toxicol.

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The N-reduction of the centrally acting alpha 2-adrenoreceptor agonist guanoxabenz (Benzérial), an N-hydroxyamidinohydrazone, to the amidinohydrazone guanabenz (Wytensin, Hipten, Rexitene) by microsomal fractions from rabbits, pigs and humans has been detected in vitro. The conversion rates with rabbit microsomal fractions were markedly slower than those in the cases of fractions from humans and pigs. It was also possible to demonstrate the N-oxidation of guanabenz to guanoxabenz by the use of microsomal fractions from rabbits, pigs, and humans. Furthermore, the oxidation was also observed in reconstituted systems in the presence of enriched cytochrome P450 fractions, purified isoenzyme P450 2C3, and heterologously expressed P450 2C3 of the subforms 6 beta H and 6 beta L. The analyses were performed with a newly developed HPLC technique and were confirmed by LC-MS methods. The kinetic parameters determined for the metabolic cycle (bioreversible reactions) are indicative of a predominance of the reduction of guanoxabenz to guanabenz in vivo. Accordingly, guanoxabenz in part constitutes a prodrug of guanabenz. Examination of guanabenz and guanoxabenz for mutagenicity by means of the Ames test revealed that guanoxabenz has pronounced mutagenic effects in the strains TA 98 and TA 1537. Guanabenz did not exhibit mutagenicity so that the N-reduction of guanoxabenz has significance in terms of detoxification.

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Erythrocyte pyruvate kinase deficiency: A kinetic method for differentiation between heterozygosity and compound‐heterozygosity

et al. 1989

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The goal of the present study was to search for criteria that allow one to distinguish between normal individuals and heterozygotes as well as compound heterozygotes for pyruvate kinase (PK) deficiency. As the residual activity of PK with heterozygotes was between 35% and 110% of the normal activity, it was necessary to find other methods to prove heterozygosity. The PK in the hemolysates of 23 patients suffering from PK deficiency, 36 paternal and maternal enzymes as well as the enzymes of five heterozygous and four normal siblings together with those of 20 normal individuals, were studied according to the recommendations of the International Committee for Standardization in Haematology. The following hematological and enzyme kinetic parameters can serve to identify heterozygotes for PK deficiency: 1) a slight reticulocytosis, 2) an up-to-twofold increase of the intracellular concentrations of glucose-6-phosphate in the erythrocyte, 3) a mixed cooperativity of the phosphoenolpyruvate (PEP)-binding process of PK, 4) a decreased nucleotide specificity with guanosine diphosphate and uridine diphosphate, and 5) a lowered affinity for adenosine diphosphate. The most significant criterium found with all heterozygotes was a mixed cooperativity of the PEP-binding process caused by the presence of a mixture of normal and mutant PK.

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P216 genotoxic activities of N-hydroxylated derivatives of amidines, guanidines and amidinohydrazones in salmonella typhimurium

Clement

Linne

1994

European Journal of Pharmaceutical Sciences

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Sabine Linne

Microsomal Catalyzed N-Hydroxylation of Guanabenz and Reduction of the N-Hydroxylated Metabolite: Characterization of the Two Reactions and Genotoxic Potential of Guanoxabenz¹

Erythrocyte pyruvate kinase deficiency: A kinetic method for differentiation between heterozygosity and compound‐heterozygosity

P216 genotoxic activities of N-hydroxylated derivatives of amidines, guanidines and amidinohydrazones in salmonella typhimurium

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Sabine Linne

Microsomal Catalyzed N-Hydroxylation of Guanabenz and Reduction of the N-Hydroxylated Metabolite: Characterization of the Two Reactions and Genotoxic Potential of Guanoxabenz1

Erythrocyte pyruvate kinase deficiency: A kinetic method for differentiation between heterozygosity and compound‐heterozygosity

P216 genotoxic activities of N-hydroxylated derivatives of amidines, guanidines and amidinohydrazones in salmonella typhimurium

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Microsomal Catalyzed N-Hydroxylation of Guanabenz and Reduction of the N-Hydroxylated Metabolite: Characterization of the Two Reactions and Genotoxic Potential of Guanoxabenz¹