Nobuyuki Shishido scite author profile

Mice lacking p27(Kip1) have been created by gene targeting in embryonic stem cells. These mice are larger than the control animals, with thymus, pituitary, and adrenal glands and gonadal organs exhibiting striking enlargement. CDK2 activity is elevated about 10-fold in p27(-/-) thymocytes. Development of ovarian follicles seems to be impaired, resulting in female sterility. Similar to mice with the Rb mutation, the p27(-/-) mice often develop pituitary tumors spontaneously. The retinas of the mutant mice show a disturbed organization of the normal cellular layer pattern. These findings indicate that p27(Kip1) acts to regulate the growth of a variety of cells. Unexpectedly, the cell cycle arrest mediated by TGFbeta, rapamycin, or contact inhibition remained intact in p27(-/-) cells, suggesting that p27(Kip1) is not required in these pathways.

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RELATIONSHIP BETWEEN AUC of 5'-DFUR AND TOXICITY OF CAPECITABINE, FLUOROPYRIMIDINE CARBAMATE ANALOGS, AND 5'-DFUR IN MONKEYS, MICE, AND RATS

Shindoh

Kawashima

Shishido

et al. 2006

J. Toxicol. Sci.

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-Capecitabine is an oral fluoropyrimidine carbamate which is converted to 5-fluorouracil (5-FU) via 3 enzymatic step to 5'-deoxy-5-fluorocytidine (5'-DFCR), 5'-deoxy-5-fluorouridine (5'-DFUR), and finally 5-FU. We performed 4-week toxicity studies of capecitabine (N 4 -pentyloxycarbonyl-5'-deoxy-5-fluorouridine), galocitabine (trimethoxybenzyl-5'-deoxy-5-fluorocytidine), 4 different fluoropyrimidine carbamate analogs (R=butyl, isopentyl, propyl, or phenethyl), and 5'-DFUR in cynomolgus monkeys with toxicokinetic measurements of intact molecules, 5'-DFCR, and 5'-DFUR. Four-week toxicity data for capecitabine in rats and mice were also obtained for comparison. Capecitabine, galocitabine, butyl, and isopentyl analogs showed similar toxicities in hematopoietic and intestinal organs at 1.0 mmol/ kg and the AUCs of 5'-DFUR were approximately 40 to 60 μg*hr/ml. These compounds showed slight toxicity at 0.5 mmol/kg and no toxicity at 0.1 mmol/kg, and AUCs of 5'-DFUR were approximately 30 and 5 μg*hr/ml, respectively. Propyl and phenethyl analogs showed slight toxicity at 1.0 mmol/kg and no toxicity at 0.5 mmol/kg, and AUCs of 5'-DFUR were approximately 30 and 10 μg*hr/ml, respectively. On the other hand, severe and slight-to-moderate toxicity was observed at 0.5 and 0.25 mmol/kg in 5'-DFUR-treated monkeys and AUCs of 5'DFUR were 35.6 and 5.2 μg*hr/ml, respectively. In mice and rats, the toxicity of capecitabine was less than in monkeys relative to dose, but 5'-DFUR AUCs were almost the same. In conclusion, 5'-DFUR AUC correlated with toxicity following oral administration of capecitabine and its analogs in monkeys, mice, and rats, although this relationship is not seen in humans. Capecitabine was less toxic in monkeys than oral 5'-DFUR according to dose (mmol/kg) and 5'-DFUR AUC.

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Prediction of drug-induced QT interval prolongation in telemetered common marmosets

et al. 2008

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-Drug-induced QT interval prolongation is a critical issue in development of new chemical entities, so the pharmaceutical industry needs to evaluate risk as early as possible. Common marmosets have been in the limelight in early-stage development due to their small size, which requires only a small amount of test drug. The purpose of this study was to determine the utility of telemetered common marmosets for predicting drug-induced QT interval prolongation. Telemetry transmitters were implanted in common marmosets (male and female), and QT and RR intervals were measured. The QT interval was corrected for the RR interval by applying Bazett's and Fridericia's correction formulas and individual rate correction. Individual correction showed the least slope for the linear regression of corrected QT (QTc) intervals against RR intervals, indicating that it dissociated changes in heart rate most effectively. With the individual correction method, the QT-prolonging drugs (astemizole, dl-sotalol) showed QTc interval prolongations and the non-QT-prolonging drugs (dl-propranolol, nifedipine) did not show QTc interval prolongations. The plasma concentrations of astemizole and dl-sotalol associated with QTc interval prolongations in common marmosets were similar to those in humans, suggesting that the sensitivity of common marmosets would be appropriate for evaluating risk of drug-induced QT interval prolongation. In conclusion, telemetry studies in common marmosets are useful for predicting clinical QT prolonging potential of drugs in early stage development and require only a small amount of test drug.

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Effect of Dose Regimen on the Toxicity of 2'-Deoxy-2'-Methylidenecytidine (Dmdc) in Monkeys

Shindoh

Kawashima²,

Shishido³

et al. 2007

J. Toxicol. Sci.

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-2'-Deoxy-2'-methylidenecytidine (DMDC) is a potential anticancer deoxycytidine analog of cytosine arabinoside. Using monkeys, we conducted a 4-week toxicity study with toxicokinetics of DMDC at 1, 3, and 10 mg/kg/day and a dose-regimen study of three different schedules of once-daily administration (5 mg/kg/day) for 1 week every 2 weeks, 2 weeks every 4 weeks, and 3 weeks every 4 weeks. Deaths, myelosuppression, intestinal toxicity, and swelling of palm and sole skin were observed by oral DMDC treatment at 10 mg/kg/day in 4-week repeated toxicity study; however, no skin disorders have been reported in humans. No notable changes were observed at 1 and 3 mg/kg/day. The curves of dose vs. AUC and the AUC at MTD in monkey are similar to those in humans. In the dose-regimen study, all the toxicities were reversible but more severe toxicity was observed with the longer administration periods. One-week interruption showed sufficient recovery of decreased WBC in dosing regimens of 1-week-on/1-week-off and 2-weeks-on/2-weeks-off. A 2-week recovery period was almost sufficient for the recovery of decreased RBC, HCT, and skin disorders in the 2-weeks-on/2-weeks-off regimen. Therefore, once-daily for 2 weeks every 4 weeks was concluded to be the optimal dose regimen. In summary, myelosuppression, intestinal toxicity, and skin disorders were observed in DMDC treatment in monkeys, the relationship between AUC and toxicity in monkeys was close to that in humans, and in preclinical studies, it is advantageous to investigate optimal dose regimens using the appropriate species.

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