Human pharmacokinetic prediction of UDP-glucuronosyltransferase substrates with an animal scale-up approach.

The aim of the current study was to evaluate the accuracy of allometric scaling methods for drugs metabolized by UDP-glucuronosyltransferases (UGTs), such as ketoprofen, imipramine, lorazepam, levofloxacin, zidovudine, diclofenac, furosemide, raloxifene, gemfibrozil, mycophenolic acid, indomethacin, and telmisartan. Human plasma clearance (CL) predictions were conducted from preclinical in vivo data by using multiple-species allometry with the rule of exponents and single-species allometric scaling (SSS) of mice, rats, monkeys, or dogs. Distribution volume at a steady state (V(ss)) was predicted by multiple-species allometry or SSS of V(ss).

Investigation of the intestinal permeability and first-pass metabolism of drugs in cynomolgus monkeys using single-pass intestinal perfusion.

To clarify the causes of low oral bioavailability (BA) of drugs in cynomolgus monkeys, the experimental method to evaluate the drug permeability and the metabolism in the intestine of cynomolgus monkeys was established. An in situ intestinal perfusion method was performed with blood sampling from both portal and peripheral veins to calculate the intestinal permeability and the metabolism of drugs simultaneously. In all experiments, antipyrine was co-perfused with test drugs as a non-metabolized reference to calculate the individual portal vein blood flow.

Depletion of substance P, a mechanism for inhibition of mouse scratching behavior by tacrolimus.

Itching is the most important problem in atopic dermatitis and tacrolimus has been suggested to attenuate the itching by topical application. However, the anti-itch mechanism of tacrolimus has not been well elucidated. In the present study, an allergic dermatitis accompanied by frequent scratching behaviors was induced by repeated paintings with 2,4-dinitrofluorobenzene (DNFB) acetone solution onto the mouse ear and the effects of tacrolimus and dexamethasone on the dermatitis and associated scratching behavior were comparatively examined.

The species differences of intestinal drug absorption and first-pass metabolism between cynomolgus monkeys and humans.

In order to elucidate the causes of the species differences in the oral bioavailability (BA) between cynomolgus monkeys and humans, the contributions of first-pass metabolism and intestinal absorption were investigated. Typical substrates of cytochrome P450 enzymes, UDP-glucuronosyltransferase enzymes and efflux transporters were selected, and the BA, the hepatic availability (Fh) and the fraction dose absorbed from gastro-intestinal tract (Fa*Fg) were calculated from pharmacokinetic analysis after oral and intravenous administration in cynomolgus monkeys. In addition, in vitro metabolism was investigated using liver and intestinal microsomes to evaluate the relationship between in vivo and in vitro results.

Characterization of gastrointestinal drug absorption in cynomolgus monkeys.

Possible factors of species differences in gastrointestinal drug absorption between cynomolgus monkeys and humans were examined using several commercial drugs. Oral bioavailability (BA) of acetaminophen, furosemide, and propranolol in cynomolgus monkeys was significantly lower than that in humans. From the pharmacokinetic analysis, these drugs were found to show the low fraction absorbed into portal vein (FaFg), suggesting that the low BA in cynomolgus monkeys was attributed mainly to the gastrointestinal absorption processes.

Inhibition of scratching behavior associated with allergic dermatitis in mice by tacrolimus, but not by dexamethasone.

Itching is the most important problem in many allergic and inflammatory skin diseases especially in atopic dermatitis. However, animal models for allergic dermatitis useful for the study of itching have rarely been established. We established a mouse allergic dermatitis model involving frequent scratching behavior by repeated painting with 2,4-dinitrofluorobenzene (DNFB) acetone solution onto the mouse skin, and comparatively examined the effects of tacrolimus and dexamethasone on the dermatitis and associated scratching behavior.

Involvement of unique mechanisms in the induction of scratching behavior in BALB/c mice by compound 48/80.

Compound 48/80 induced scratching behavior in BALB/c mice, and the role of mast cell mediators in this behavior was examined. Mouse scratching behavior was detected and evaluated using a new apparatus, MicroAct. Compound 48/80 increased the incidence of scratching behavior and scratching time in a dose-dependent manner, accompanied by a potent activation of mast cells and a potent increase in vascular permeability.

Highly water-soluble matrix metalloproteinases inhibitors and their effects in a rat adjuvant-induced arthritis model.

A new series of succinate-based dual inhibitors against matrix metalloproteinases (MMPs) and tumor necrosis factor alpha converting enzyme (TACE) possessing highly-water solubility was designed, synthesized, and evaluated for enzyme inhibition. Incorporating of acidic or basic functional groups at the P(2)' position afforded sufficient water solubility without significant loss of inhibitory potencies. Compound 18e, which had a guanidino group at the P(2)' position as the basic functional group, exhibited broad inhibition against target enzymes for a relatively long period in rat plasma (beta t(1/2); 2.