Metabolism of OR-1896, a metabolite of levosimendan, in rats and humans.

OR-1896 is a pharmacologically active, long-lived metabolite of levosimendan. In the current study, the metabolism of (14)C-labelled OR-1896 was investigated in six healthy men after intravenous infusion over 10 min and in male rats after an intravenous bolus dose. In human plasma, the only (14)C-compounds detected were (14)C-OR-1896 and its deacetylated form, (14)C-OR-1855, in varying proportions in different subjects. In rat plasma >93% of radioactivity was associated with OR-1896. Radioactivity was mainly excreted to urine in both rats (about 69% of the dose) and humans (about 87% of the dose). OR-1896 was a major urinary compound in both humans and rats. Another major human metabolite was hypothesized as N-conjugated OR-1855. Other human and rat urinary biotransformation products were characterized as N-hydroxylated OR-1896 and N-hydroxylated OR-1855, as well as glucuronide or sulphate conjugates of N-hydroxyl OR-1896. The main difference between rat and human metabolism was a lower amount of OR-1855-related metabolites in the rats. In human faecal homogenates, only OR-1896 and OR-1855 were detected, whereas rat faecal metabolite profile was similar to that in urine.

Association study of 15 novel single-nucleotide polymorphisms of the T-bet locus among Finnish asthma families.

OBJECTIVE: T-box expressed in T cells (T-bet) is a transcription factor regulating the commitment of T helper (Th) cells by driving the cells into the Th1 direction. Abnormal Th1/Th2 balance may lead to complex disorders like asthma or autoimmune diseases. Recent studies have suggested that T-bet might be a candidate gene for asthma. This led us to screen 23 Finnish individuals for single-nucleotide polymorphisms (SNPs) in the T-bet locus and study the association between the SNPs and high serum IgE level and asthma. METHODS: We screened all six exons, adjacent intronic areas and 2 kb of the 5'-flanking region from 23 individuals utilizing WAVE trade mark technology. To explore whether T-bet is associated in serum IgE regulation or asthma we genotyped the SNPs in a Finnish asthmatic founder population. The association analyses were made using haplotype pattern mining. RESULTS: Fifteen novel SNPs were found in the T-bet gene. Within the Finnish asthmatic founder population, there was no association between T-bet SNPs and high serum IgE level or asthma. CONCLUSIONS: The genetic variability in the T-bet gene does not play a role in the pathogenesis of human asthma. Our results provide a novel panel of SNPs in T-bet and will help determine whether the SNPs have a functional role in other T cell-mediated diseases.