Lipocalin-type prostaglandin D synthase (L-PGDS), which was originally identified as an enzyme responsible for PGD 2 biosynthesis in the brain, is highly expressed in the myocardium, including in cardiomyocytes. However, the factors that control expression of the gene encoding L-PGDS and the pathophysiologic role of L-PGDS in cardiomyocytes are poorly understood. In the present study, we demonstrate that glucocorticoids, which act as repressors of prostaglandin biosynthesis in most cell types, upregulated the expression of L-PGDS together with cytosolic calcium-dependent phospholipase A2 and COX2 via the glucocorticoid receptor (GR) in rat cardiomyocytes. Accordingly, PGD 2 was the most prominently induced prostaglandin in vivo in mouse hearts and in vitro in cultured rat cardiomyocytes after exposure to GR-selective agonists. In isolated Langendorff-perfused mouse hearts, dexamethasone alleviated ischemia/reperfusion injury. This cardioprotective effect was completely abrogated by either pharmacologic inhibition of COX2 or disruption of the gene encoding L-PGDS. In in vivo ischemia/reperfusion experiments, dexamethasone reduced infarct size in wild-type mice. This cardioprotective effect of dexamethasone was markedly reduced in L-PGDS-deficient mice. In cultured rat cardiomyocytes, PGD 2 protected against cell death induced by anoxia/reoxygenation via the D-type prostanoid receptor and the ERK1/2-mediated pathway. Taken together, these results suggest what we believe to be a novel interaction between glucocorticoid-GR signaling and the cardiomyocyte survival pathway mediated by the arachidonic acid cascade.
The findings of this study suggest that CYP2D6 genotypes play an important role in controlling steady-state plasma concentrations of aripiprazole and the sum of aripiprazole and dehydroaripiprazole in Asian subjects, whereas CYP3A5 and ABCB1 genotypes seemed unlikely to have an impact.
The CYP2D6*10(*10) allele that causes decreased CYP2D6 activity is present in Asians with a high frequency of approximately 50%. We studied the effects of the *10 allele on the steady-state plasma concentrations of aripiprazole and its active metabolite, dehydroaripiprazole. The subjects were 63 Japanese patients with schizophrenia who had only the wild-type or *10 alleles. Twenty-seven patients were homozygous for the wild-type allele, 31 were heterozygous, and five were homozygous for the *10 allele. All patients had been receiving the fixed doses of aripiprazole for at least 2 weeks. The daily doses were 24 mg (n = 40) and 12 mg (n = 23). No other drugs except biperiden and flunitrazepam were coadministered. Plasma concentrations of aripiprazole and dehydroaripiprazole were measured using liquid chromatography with mass spectrometric detection. The mean ± standard deviation values of concentration/dose ratios of aripiprazole in the patients with zero, one, and two *10 alleles were 9.0 ± 2.9, 12.7 ± 4.4, and 19.0 ± 6.8 ng/mL/mg, respectively, and those values for dehydroaripiprazole were 4.9 ± 1.6, 5.9 ± 1.7, and 5.9 ± 1.9 ng/mL/mg, respectively. The respective values for the sum of aripiprazole and dehydroaripiprazole were 13.9 ± 4.3, 18.6 ± 5.9, and 24.6 ± 8.5 ng/mL/mg. The mean concentration/dose ratios of aripiprazole were significantly (P < 0.01 or P < 0.001) different among the three genotype groups. The values for the sum of aripiprazole and dehydroaripiprazole were significantly higher in patients with one (P < 0.01) and two (P < 0.001) *10 alleles compared with those with zero *10 alleles. This study suggests that the *10 allele plays an important role in controlling the steady-state plasma concentrations of aripiprazole and the sum of aripiprazole and dehydroaripiprazole in Asian subjects.
The present study suggests that an early therapeutic response to lamotrigine is dependent on its plasma concentration and that a plasma lamotrigine concentration of 12.7 μmol/L may be a threshold for a good therapeutic response in treatment-resistant depressive disorder.
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