Hiromi Sakaguchi scite author profile

The influence of dosing time on the anti-immobility effect of antidepressants and mechanisms underlying this phenomenon were investigated in mice. In the forced swimming test (FST), the immobility time of mice treated with amitriptyline (15 mg/kg) and fluvoxamine (30 mg/kg) showed a significant 24-h rhythm. The anti-immobility effect of fluvoxamine in FST was potent at the early part of the dark phase without increasing locomotor activity. Concerning pharmacokinetics, although K e of fluvoxamine was approximately 1.3-fold higher in mice injected with fluvoxamine at 9:00 PM than at 9:00 AM, no dosing time dependence was demonstrated for either plasma or brain fluvoxamine concentration at 0.5 h after the drug injection. On the other hand, serotonin transporter (SERT) mRNA expression and 5-hydroxytryptamine (5-HT) uptake activity in the mouse midbrain showed significant time-dependent changes with higher levels during the dark phase and lower levels during the light phase. These results suggest that the reuptake of 5-HT might be more increased during the dark phase. Since the reuptake of 5-HT is inhibited almost completely by injection with 30 mg/kg fluvoxamine at any time, the extracellular 5-HT level may be more increased by the injection of fluvoxamine at the early part of the dark phase. The present results suggest that the antiimmobility effect of fluvoxamine in FST increases depending on dosing time. Furthermore, the time-dependent change of SERT mRNA expression and uptake activity in the midbrain is suggested to be the mechanism underlying the 24-h rhythm of anti-immobility effect of fluvoxamine.

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Influence of Dosing Schedule on Toxicity and Antitumor Effects of a Combination of Adriamycin and Docetaxel in Mice

Shin

Tabuchi

et al. 2004

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Purpose: Although the combination of Adriamycin (ADR) and docetaxel (DOC) showed a better cure rate against metastatic breast cancer in a clinical study, severe myelosuppression and cardiotoxicity were dose-limiting factors. The purpose of this study was to establish the most suitable dosing schedule to relieve severe adverse effects and improve the antitumor effects.Experimental Design: Both ADR and DOC were administered simultaneously in the simultaneous-dosing group (ADR/DOC), whereas in the intermittent-dosing groups (ADR-DOC and DOC-ADR), the second drug was administered 12 h after the first drug. Leukocyte counts and survival were measured to estimate adverse effects. After administration, ADR and DOC concentrations in blood, myelocyte cells, and heart were determined. To clarify the antitumor effect, tumor growth was measured in Ehrlichcell-bearing mice after the initiation of drug injections.Results: The simultaneous-dosing group showed severe leukopenia compared with the saline-treated group. However, the toxicity was reduced in the intermittent-dosing groups. The DOC-ADR group showed the best survival rate in the dosing groups. In the pharmacokinetic study, ADR and DOC concentrations in plasma, myelocyte cells, and the heart were markedly higher in the simultaneous-dosing group than the intermittent-dosing groups. These results indicate that pharmacokinetic interactions may contribute to the change in leukopenia induced by concurrent administration of ADR and DOC. The antitumor effect in the DOC-ADR group was the highest in the dosing groups.Conclusions: In the present study, the findings suggest that ADR administered 12 h after DOC injection (DOC-ADR group) not only inhibits tumor growth more strongly but also significantly reduces leukopenia compared with results for the simultaneous-dosing (ADR/DOC) group and significantly reduced the number of toxic deaths compared with the other groups.

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Pre-administration of docetaxel protects against adriamycin-induced cardiotoxicity

Sakaguchi

Kodama

Tomonari

et al. 2007

Breast Cancer Res Treat

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Therapeutic Index by Combination of Adriamycin and Docetaxel Depends on Dosing Time in Mice

Tabuchi

Sakaguchi

et al. 2005

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Although the combination of adriamycin and docetaxel showed a better cure rate against metastatic breast cancer, severe myelosuppression and cardiotoxicity were dose-limiting factors. The purpose of this study was to establish a suitable dosing schedule, based on a chronopharmacologic approach, to relieve severe adverse effects. In experiment 1, adriamycin or docetaxel was injected i.p. at 2, 6, 10, 14, 18, or 22 hours after light onset (HALO) to estimate toxicities. In experiment 2, the dosing time dependency of toxicity and pharmacokinetics were assessed in the combination of adriamycin and docetaxel. In addition, G 2 -M phase in myelocyte cells was determined in nontreated mice. Adverse effects caused by adriamycin were shown to be the worst at 2 HALO and the best at 14 HALO. On the other hand, docetaxel-induced adverse effects were more severe at 14 HALO than at 2 HALO. In the combination study, the D(2)-A(14) group, in which docetaxel was administered at 2 HALO followed by adriamycin at 14 HALO, showed the most toxicity relief of all the treated groups. In the pharmacokinetic study, the dosing time dependency of toxicities was not related to the daily variation of pharmacokinetics of adriamycin and docetaxel. A significant 24-hour rhythm of G 2 -M phase distribution was found in myelocyte cells of nontreated mice. The daily variation of leukopenia caused by docetaxel corresponded to the 24-hour rhythm of G 2 -M phase distribution. These findings reveal that the therapeutic index of the combined chemotherapy can be improved by administering adriamycin and docetaxel at the time when the most adverse effects are relieved in each drug. (Cancer Res 2005; 65(18): 8448-54)

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