Dog leukocyte antigen genotyping across class I and class II genes in beagle dogs as laboratory animals.

Dog leukocyte antigen (DLA) polymorphisms have been found to be associated with inter-individual variations in the risk, susceptibility, and severity of immune-related phenomena. While DLA class II genes have been extensively studied, less research has been performed on the polymorphisms of DLA class I genes, especially in beagle dogs commonly used as laboratory animals for safety evaluations in drug development. We genotyped four DLA class I genes and four DLA class II genes by locus-specific Sanger sequencing using 93 laboratory beagle dogs derived from two different strains: TOYO and Marshall. The results showed that, for DLA class I genes, 11, 4, 1, and 2 alleles, including a novel allele, were detected in DLA-88, DLA-12/88L, DLA-64, and DLA-79, while, for DLA class II genes, 1, 10, 6, and 7 alleles were detected in DLA-DRA, DLA-DRB1, DLA-DQA1, and DLA-DQB1, respectively. It was estimated that there were 14 DLA haplotypes, six of which had a frequency of ≥ 5%. Furthermore, when comparing the DLA diversity between TOYO and Marshall strains, the most common alleles and haplotypes differed between them. This is the first study to genotype all DLA loci and determine DLA haplotypes including all DLA class I and class II genes in dogs. Integrating information on the DLA diversity of laboratory beagle dogs should reinforce their benefit as an animal model for understanding various diseases associated with a specific DLA type.

Estimation of total prescription weights of active pharmaceutical ingredients in human medicines based on a public database for environmental risk assessment in Japan.

The distribution of active pharmaceutical ingredients (APIs) in prescription medicines for human consumption in Japan was estimated using the public database of the National Database of Health Insurance Claims and Specific Health Checkups of Japan (NDB). From the latest NDB, 2058 APIs were identified, and the prescription weight exceeded 1 tonne/year for 711 APIs. Of these, 298 APIs were selected for further analysis after removing 413 APIs that were not covered by current environmental risk assessment (ERA) directives or were combination products. Among the 298 APIs, 43 were relatively newly branded APIs that have been available on the Japanese market since 2001 or later and have no generic drugs, and only 5 of the branded APIs are used by more than 1% of the population. When prescription data from the 47 prefectures in Japan were analyzed, prescription weights for 257 of the 298 APIs were the highest in Tokyo, probably because of its large population. Though it has both advantages and limitations, this novel method based on a non-profit public database can provide a transparent, unbiased and cost-effective solution for the estimation of the environmental exposure of generic and branded human medicines distributed with prescriptions in Japan.

Thioacetamide-induced Hepatocellular Necrosis Is Attenuated in Diet-induced Obese Mice.

To assess modification of thioacetamide-induced hepatotoxicity in mice fed a high-fat diet, male C57BL/6J mice were fed a normal rodent diet or a high-fat diet for 8 weeks and then treated once intraperitoneally with thioacetamide at 50 mg/kg body weight. At 24 and 48 hours after administration, massive centrilobular hepatocellular necrosis was observed in mice fed the normal rodent diet, while the necrosis was less severe in mice fed the high-fat diet. In contrast, severe swelling of hepatocytes was observed in mice fed the high-fat diet. In addition, mice fed the high-fat diet displayed more than a 4-fold higher number of BrdU-positive hepatocytes compared with mice fed the normal rodent diet at 48 hours after thioacetamide treatment. To clarify the mechanisms by which the hepatic necrosis was attenuated, we investigated exposure to thioacetamide and one of its metabolites, the expression of CYP2E1, which converts thioacetamide to reactive metabolites, and the content of glutathione S-transferases in the liver. However, the reduced hepatocellular necrosis noted in mice fed the high-fat diet could not be explained by the differences in exposure to thioacetamide or thioacetamide sulfoxide or by differences in the expression of drug-metabolizing enzymes. On the other hand, at 8 hours after thioacetamide administration, hepatic total glutathione in mice fed the high-fat diet was significantly lower than that in mice fed the normal diet. Hence, decreased hepatic glutathione amount is a candidate for the mechanism of the attenuated necrosis. In conclusion, this study revealed that thioacetamide-induced hepatic necrosis was attenuated in mice fed the high-fat diet.

Decrease in protein binding and its effect on toxicokinetics (TK)/toxicodynamics (TD) of diclofenac and propranolol in pregnant rats.

Plasma protein binding is an important factor for the kinetics of drugs and how they act since it is the first step in drug distribution. Physiological changes in pregnancy, which include plasma composition, can affect drug binding and subsequent drug response. In the present study, we investigated the toxicokinetics (TK) and/or toxicodynamics (TD) of diclofenac and propranolol comparing pregnant Sparague-Dawley (SD) rats with non-pregnant SD rats in terms of protein binding and drug distribution. Diclofenac and propranolol are reported to bind to albumin and alpha(1)-acid glycoprotein (AGP), respectively. After a single administration of diclofenac, the area under plasma concentration-time curve (AUC) based on free diclofenac in pregnant rats was 3.9 times higher than that in non-pregnant rats. This difference is considered to be due to a lower concentration of serum albumin and a higher concentration of non-esterified fatty acid (NEFA) that inhibits drug binding to albumin, in pregnant rats. In histopathological examination, more severe gastrointestinal toxicity was observed in pregnant rats at 24 hr after dosing. This severe toxicity was likely to be correlated with the higher AUC. With respect to propranolol, the difference of the AUC based on free propranolol was not clear although the concentration of serum AGP was lower in pregnant rats. However, the binding analysis data suggested a difference of protein binding at a lower propranolol concentration range. Consequently, lowered serum proteins and increased NEFA in pregnant rats can lead to low protein binding, subsequent increase in free drug concentrations, and eventual increase in the TD of drugs.

Toxicokintic and toxicodynamic analysis of clofibrate based on free drug concentrations in nagase analbuminemia rats (NAR).

Toxicokinetics (TK) is usually performed by measurement of the total drug concentrations in plasma. However, free drug concentrations in plasma are considered to correlate directly with toxicodynamics (TD). In the present study, to evaluate the applicability of TK/TD analysis based on free drug concentrations, we investigated the TK/TD of clofibrate, which binds to albumin with a higher ratio, using an albumin-deficient mutant strain, Nagase analbuminemia rats (NAR). TK, blood chemistry, histopathology, drug and fatty acid metabolizing enzymes and microarray analysis in the liver were examined after a 4-day oral administration of clofibrate. Compared to Sprague-Dawley (SD) rats, the parent strain of NAR, 4.1-fold higher AUC(0-24hr) based on free drug concentrations (3445 versus 844 microg.hr/ml) was observed in NAR when both rats showed the same level of AUC(0-24hr) based on the total drug concentrations (4436 versus 4237microg.hr/ml). Additionally, more severe hepatocellular hypertrophy, increase in aspartate transaminase (AST), alanine aminotransferase (ALT) and lactate dehydrogenase (LDH), decrease in total cholesterol (T.CHO), phospholipid (PL), triglyceride (TG), and non-esterified fatty acid (NEFA), and increase in the mRNA levels of fatty acid metabolizing enzymes (FAOS, CAT, and CPT) were observed in NAR at the same dose. These results demonstrated that NAR developed more severe toxicities and pharmacological effects than SD rats correlating with the higher AUC of the free drug concentrations. The results also suggested that TK/TD analysis based on the free drug concentration is appropriate to interpret the relationship between exposure and toxicity in cases of protein binding saturation including protein decrease or species differences on protein binding, especially when drugs showing a higher protein binding ratio are dosed.

Characterization of phenotypes in Gstm1-null mice by cytosolic and in vivo metabolic studies using 1,2-dichloro-4-nitrobenzene.

Glutathione S-transferase Mu 1 (GSTM1) has been regarded as one of the key enzymes involved in phase II reactions in the liver, because of its high expression level. In this study, we generated mice with disrupted glutathione S-transferase Mu 1 gene (Gstm1-null mice) by gene targeting, and characterized the phenotypes by cytosolic and in vivo studies. The resulting Gstm1-null mice appeared to be normal and were fertile. Expression analyses for the Gstm1-null mice revealed a deletion of Gstm1 mRNA and a small decrease in glutathione S-transferase alpha 3 mRNA. In the enzymatic study, GST activities toward 1,2-dichloro-4-nitrobenzene (DCNB) and 1-chloro-2,4-dinitrobenzene (CDNB) in the liver and kidney cytosols were markedly lower in Gstm1-null mice than in the wild-type control. Gstm1-null mice had GST activities of only 6.1 to 21.0% of the wild-type control to DCNB and 26.0 to 78.6% of the wild-type control to CDNB. After a single oral administration of DCNB to Gstm1-null mice, the plasma concentration of DCNB showed larger AUC0-24 (5.1-5.3 times, versus the wild-type control) and higher Cmax (2.1-2.2 times, versus the wild-type control), with a correspondingly lower level of glutathione-related metabolite (AUC0-24, 9.4-17.9%; and Cmax, 9.7-15.6% of the wild-type control). In conclusion, Gstm1-null mice showed markedly low ability for glutathione conjugation to DCNB in the cytosol and in vivo and would be useful as a deficient model of GSTM1 for absorption, distribution, metabolism, and excretion/toxicology studies.