Evaluation system for cell-permeable CYP3A4 inhibitory activity using 1α,25-dihydroxy-vitamin D3-induced intestinal cell lines.

We developed an assay system to evaluate the cytochrome P450 (CYP) 3A4-inhibitory activity of compounds, taking account of their cellular permeability, using intestine-derived cell lines pre-treated with the CYP3A4 inducer 1α,25-dihydroxy-vitamin D3 (250 nM).Ketoconazole (KTZ), saquinavir (SQV), naringin, naringenin (NGE), bergamottin (BG), 6',7'-dihydroxybergamottin (DHBG), epigallocatechin gallate (EGCG), and resveratrol (RES) were evaluated as known CYP3A4 inhibitors. The apparent IC50 (IC50,app) values of known inhibitors were determined in Caco-2 cells with 10 µM midazolam as a CYP3A4 substrate, and compared with the IC50 values in a human liver microsome assay.SQV and BG with high lipophilicity and good membrane permeability show similar concentrations inside and outside the cells, and consequently IC50,app and IC50 are similar.KTZ, EGCG, DHBG, NGE, and RES showed a difference between IC50 and IC50,app. This is considered to result from a difference between the intracellular and extracellular concentrations of the compound, which is likely due to the involvement of efflux and/or influx transporters.This method to evaluate CYP inhibition taking account of membrane permeation should be helpful to assess the potential clinical relevance of drug-drug or drug-food interactions in the gastrointestinal tract.

Multiple-endpoint genotoxicity assay for colon carcinogen 1,2-dimethylhydrazine.

Human risk assessment of the toxic potency of chemicals typically includes genotoxicity assays for predicting carcinogenicity. Gene mutation frequency and chromosomal aberration are two major genotoxicity endpoints in standardized in vitro and in vivo assays. The weight-of-evidence approach in risk assessment is more focused on in vivo assay results; however, animal welfare considerations are aimed at the reduction, replacement, and refinement (3R's) of animal experiments, including a reduction in the number of experimental animals. Proposals to reduce experimental animals in genotoxicity testing include the incorporation of genotoxicity endpoint(s) into other toxicological studies and the combination of two or more assays detecting different genotoxicity endpoints in the same animals. In this study, we used 1,2-dimethylhydrazine as a model chemical of colon carcinogen to assess gene mutation frequency and chromosomal aberration in vivo simultaneously. Specifically, a gene mutation frequency assay was combined with a multiple-organ micronucleus test (peripheral blood, bone marrow, liver, and colon) in F344 gpt delta transgenic rats. Both gpt mutant frequency and micronucleated cell frequency significantly increased in colon and liver but not in bone marrow. Interestingly, we found that the colon carcinogen induced both gene mutations and micronuclei in the targeted colon tissue. Thus, we demonstrated that the mechanism of a carcinogen could be derived from an animal experiment using a lower number of experimental animals as currently recommended. Moreover, a significant increase in mutant frequency in colon and liver was already observed on the first day after treatment completion, as well as on the third day, which is the guideline-recommended period. Thus, this endpoint is compatible with other genotoxicity assays. We confirmed that performing the micronucleus assay in combination with a gene mutation assay in F344 gpt delta transgenic rats is useful to evaluate different genotoxic endpoints simultaneously in the same animals, which reduces the number of experimental animals.

Target-specific micronucleus induction by colon carcinogens: 2-Amino-1-methyl-6-phenylimidazo[4,5-b]pyridine and 1,2-dimethylhydrazine.

Genotoxicity occurring at the target organs of carcinogenesis is important for understanding the mechanisms of chemical carcinogenicity and also for setting of threshold estimation. In vivo gene mutations have been evaluated by transgenic animal models in which any organ can be targeted; however, the methodologies that have been applied to assess chromosomal aberrations including micronucleus induction, are organ restricted, (often to bone marrow hematopoietic cells, as a common example). For food and food-related chemicals, the digestive tract is the important target organ as it is the organ of first contact. In the present study, we used 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) and 1,2-dimethylhydrazine (DMH) as model chemicals of carcinogens primarily targeting the colon. We evaluated the applicability of colon cells and hepatocytes, together with bone marrow cells, in the micronucleus assay. Both model chemicals induced micronuclei in the colon, which is the target organ of these carcinogens, after short- and long-term treatment(s). The results demonstrate the target specificity of micronucleus induction and the assay using organs other than bone marrow will play an important role in understanding the mechanism of carcinogenicity and predicting new carcinogenic agents.

Integration of micronucleus tests with a gene mutation assay in F344 gpt delta transgenic rats using benzo[a]pyrene.

Reduction of the number of animals used in in vivo genotoxicity tests is encouraged. For this purpose, we conducted integrated toxicity tests combining gene mutation assays with multiple-organ micronucleus (MN) tests (peripheral blood, bone marrow, liver, and colon) in F344 gpt delta transgenic (Tg) rats. Seven-week-old male F344 gpt delta rats were orally administered 62.5 or 125 mg/kg/day benzo[a]pyrene (B[a]P) for 28 days. One day after the final day of treatment (day 29) and three days after the final treatment (day 31), bone marrow, liver, and colon samples were collected, and mutation assays and MN tests were performed. The gpt mutant frequency (MF) significantly increased in bone marrow, liver and colon but MN induction was only significant in bone marrow but not in liver and colon. Similarly MN induction was only observed in bone marrow in non-Tg F344 rats. In peripheral blood obtained on day 4, 15, 29, 31, a time-dependent increase was observed in reticulocyte MN frequency during the treatment. Thus, our integrated method successfully detected both gene mutations and MN induction caused by B[a]P. In addition, no significant differences were observed between sampling times (day 29 versus 31), suggesting that sampling on day 29 is also valid to evaluate gene mutations. On the other hand, MN results in bone marrow and peripheral blood were different depending on the sampling day. An appropriate sampling day should be designated according to which assays are integrated. We confirmed that integration of the MN test with a gene mutation assay using F344 gpt delta Tg rats is useful to evaluate different endpoints related to genotoxicity using the same animals and to reduce animal use.

Mechanisms of chromosomal aberrations induced by sesamin metabolites in Chinese hamster lung cells.

Sesamin is a major lignan in sesame seeds and oil. We previously demonstrated that sesamin induces chromosomal aberrations (CA) in Chinese hamster lung (CHL/IU) cells in the presence of a metabolic activation system (S9 mix), although no genotoxicity was detected in vivo. To clarify the mechanism of CA induction by sesamin, we identified its principal active metabolite. A mono-catechol derivative, [2-(3,4-methylenedioxyphenyl)-6-(3,4-dihydroxyphenyl)-3,7-dioxabi-cyclo[3.3.0]octane (SC-1)], was previously identified in culture medium when sesamin was incubated with S9 mix. In the present study, we show that SC-1 induces CA in CHL/IU cells but not in human hepatoblastoma (HepG2) cells. SC-1 was unstable in culture medium. Addition of glutathione (GSH) to the incubation mixture decreased the rate of decomposition and also suppressed induction of CA in CHL/IU cells. These results indicate that SC-1 itself may not contribute to the induction of CA. Two GSH adducts of SC-1 were identified when SC-1 was incubated with GSH, suggesting that SC-1 was converted to the semiquinone/quinone form and then conjugated with GSH in the culture medium. Sodium sulfite (a quinone-responsive compound) also suppressed CA induction by SC-1. These findings strongly suggest that SC-1 is oxidized to semiquinone/quinone derivatives extracellularly in culture medium, that these derivatives are responsible for the induction of CA in CHL/IU cells, and therefore that the positive results obtained with sesamin in in vitro CA tests using CHL/IU cells may not be relevant to the assessment of in vivo activity.

Changes in coumarin kinetics and subcellular localization of CYP2E1 contribute to bile duct damage and reduce hepatocellular damage after repeated administration of coumarin in rats.

Coumarin exhibits different hepatotoxicity in rats depending on the administration frequency. To investigate the underlying mechanisms for the differences, we administered coumarin to rats as a single dose or repeatedly for 4 weeks. We found large increases in blood levels of liver enzymes and noticeable centrilobular hepatic necrosis after a single dose of coumarin. After repeated administration, enzyme levels mildly increased, while those of γ-GTP and total bilirubin significantly increased, suggesting bile duct damage. In the control group, cytochrome P450 2E1 (CYP2E1) showed a diffuse subcellular distribution but accumulated within the hepatocyte endoplasmic reticulum after repeated coumarin administration. The maximum blood concentrations of coumarin and its metabolites were significantly lower upon repeated administration. The results suggest that changes in coumarin pharmacokinetics and CYP2E1 subcellular distribution contribute to resistance to coumarin-induced hepatic necrosis, while cytotoxicity of metabolic conjugates shown in vitro may contribute to bile duct damage upon repeated coumarin administration.

Development of a high-throughput genotoxicity assay using Umu test strains expressing human cytochrome P450s and NADPH-P450 reductase and bacterial O-acetyltransferase.

Umu test is one of the in vitro genotoxicity test that has been used widely. It was developed as a high-throughput test system using the 96-well microplate. We have previously constructed new umu test strains for the evaluation of genotoxicity of procarcinogenic metabolic products formed by cytochrome P450 (CYP) enzymes. In this study, a highly sensitive high-throughput genotoxicity test was developed using four umu test strains (OY1002/1A1, OY1002/1B1, OY1002/1A2, and OY1002/3A4) that express human CYPs and NADPH-P450 reductase. We found that the modified umu-microplate method was more sensitive than the conventional microplate method using strain OY1002/1A2. In addition, the new microplate method was better able to detect genotoxicity than the test tube method when the strain OY1002/1A2 was used and had similar sensitivity for the remaining three strains. When the microplate method was used, OY1002/1A2 showed stronger umuC gene expression in the presence of 2-amino-6-methyldipyrido[1,2-a:3',2'-d]imidazole, 2-amino-3-methylimidazo[4,5-f]quinoline, 2-amino-3,4-dimethylimidazo[4,5-f]quinoline, 2-amino-3,8-dimethylimidazo[4,5-f]quinoxaline, 2-aminofluorene, and 2-aminoanthracene compared to other strains. We also confirmed CYP1A2 expression in OY1002/1A2 in this condition. These results indicate that the microplate version of this test system can detect the genotoxicity of heterocyclic and aromatic amines with high sensitivity and can be used for high-throughput screening of potentially genotoxic compounds. Environ. Mol. Mutagen. 58:209-216, 2017. © 2017 Wiley Periodicals, Inc.

Evaluation of single-dose RBC Pig-a and PIGRET assays in detecting the mutagenicity of thiotepa in rats.

The Pig-a assay, which uses reticulocytes (PIGRET assay) as target cells, is anticipated to detect mutagenicity at earlier time points than the RBC Pig-a assay, which uses all red blood cells as target cells. As part of a collaborative study conducted by the Mammalian Mutagenicity Study (MMS) Group, we evaluated the PIGRET and RBC Pig-a assays to detect Pig-a gene mutations induced by the carcinogen thiotepa. A single dose of thiotepa at 7.5, 15, and 30mg/kg was administered to 8-week-old male Sprague-Dawley rats by oral gavage. PIGRET and RBC Pig-a assays were performed using peripheral blood collected from rats 7, 14, and 28days after thiotepa administration (Day 0 as the day of administration), and the resulting Pig-a mutant frequencies (MFs) were compared. Increased Pig-a MF was observed from Day 7 onwards using the PIGRET assay. Pig-a MF remained fairly constant thereafter until Day 28 in the 30mg/kg group, whereas it peaked on Day 14 in the 7.5 and 15mg/kg groups. Using the RBC Pig-a assay, on the other hand, no significant increase in MF was observed at any of the dosages on Days 7, 14, or 28. These findings show that Pig-a gene mutations following a single dose of thiotepa were detected using the PIGRET assay but not the RBC Pig-a assay, which suggests that PIGRET assay is more suitable than RBC Pig-a assay for evaluating the in vivo mutagenicity by a single dose.

The PIGRET assay, a method for measuring Pig-a gene mutation in reticulocytes, is reliable as a short-term in vivo genotoxicity test: Summary of the MMS/JEMS-collaborative study across 16 laboratories using 24 chemicals.

The in vivo mutation assay using the X-linked phosphatidylinositol glycan class A gene (Pig-a in rodents, PIG-A in humans) is a promising tool for evaluating the mutagenicity of chemicals. Approaches for measuring Pig-a mutant cells have focused on peripheral red blood cells (RBCs) and reticulocytes (RETs) from rodents. The recently developed PIGRET assay is capable of screening >1×106 RETs for Pig-a mutants by concentrating RETs in whole blood prior to flow cytometric analysis. Additionally, due to the characteristics of erythropoiesis, the PIGRET assay can potentially detect increases in Pig-a mutant frequency (MF) sooner after exposure compared with a Pig-a assay targeting total RBCs (RBC Pig-a assay). In order to test the merits and limitations of the PIGRET assay as a short-term genotoxicity test, an interlaboratory trial involving 16 laboratories was organized by the Mammalian Mutagenicity Study Group of the Japanese Environmental Mutagenicity Society (MMS/JEMS). First, the technical proficiency of the laboratories and transferability of the assay were confirmed by performing both the PIGRET and RBC Pig-a assays on rats treated with single doses of N-nitroso-N-ethylurea. Next, the collaborating laboratories used the PIGRET and RBC Pig-a assays to assess the mutagenicity of a total of 24 chemicals in rats, using a single treatment design and mutant analysis at 1, 2, and 4 weeks after the treatment. Thirteen chemicals produced positive responses in the PIGRET assay; three of these chemicals were not detected in the RBC Pig-a assay. Twelve chemicals induced an increase in RET Pig-a MF beginning 1 week after dosing, while only 3 chemicals positive for RBC Pig-a MF produced positive responses 1 week after dosing. Based on these results, we conclude that the PIGRET assay is useful as a short-term test for in vivo mutation using a single-dose protocol.

Relationship between coumarin-induced hepatocellular toxicity and mitochondrial function in rats.

The manifestation of coumarin-induced hepatocellular toxicity may differ and depends on the frequency of administration to rats. A single coumarin dose induces hepatocellular necrosis while repeated doses induce only hepatocyte degeneration. However, the mechanism underlying these effects remains unclear. Therefore, we investigated the mechanism of coumarin-induced hepatotoxicity in rats. Coumarin was administered to male rats as a single dose or for 4 consecutive days, and samples were obtained 4 or 24 h after a single dose or 24 h after the repeated doses. A single coumarin dose significantly induced hepatocellular necrosis in rats; however, toxicity was attenuated after repeated dosing. With a single dose, hepatocellular necrosis was preceded by increased mitochondrial number and size and decreased mitochondrial function. An increased expression of granular cytochrome P450 (CYP) 2E1 protein was observed in the cytoplasm and mitochondria of coumarin-treated rats compared to the expression in the untreated controls. Nevertheless, repeated dosing showed mitochondrial function that was equivalent to that of the control while enlarged CYP2E1 protein droplets were distributed outside the mitochondria. These results suggest that mitochondrial function and CYP2E1 expression might be involved in coumarin-induced hepatocellular toxicity in rats. A reduction in mitochondrial CYP2E1 might be implicated in the acquisition of coumarin resistance after repeated doses.

Repeated dose liver and gastrointestinal tract micronucleus assays using N-methyl-N'-nitro-N-nitrosoguanidine in young adult rats.

N-Methyl-N'-nitro-N-nitrosoguanidine (MNNG) is a direct-acting mutagen that induces tumors in the glandular stomach, but not in the liver or colon, of rats after oral administration. To evaluate the performance of repeated dose liver and gastrointestinal tract micronucleus (MN) assays in young adult rats, MNNG was administered by oral gavage to male CD (SD) rats aged 6 weeks at doses of 0 (vehicle; 2.5% DMSO aqueous solution), 3.125, 6.25, 12.5, and 25mg/kg/day once daily for 14 and 28 days, and the MN frequencies were examined in the hepatocytes, glandular stomach cells, and colonic cells. The MN induction in immature erythrocytes in the bone marrow of these animals was also simultaneously evaluated. The frequencies of micronucleated (MNed) glandular stomach cells were significantly increased in all MNNG treatment groups in a dose-dependent manner in both repeated dose studies. In contrast, the frequencies of MNed hepatocytes and colonic cells were not significantly increased compared to the vehicle control. In the bone marrow, a small but significant increase in the frequency of MNed immature erythrocytes was observed only at the highest dose in the 28-day study. Since a clear positive result in the glandular stomach agrees with the tissue specificity of tumor induction by this chemical, the MN assay with the glandular stomach, which is a direct contact site with high concentrations of test substances administered by oral gavage, may be useful for detecting genotoxic compounds that are short-lived in vivo, such as MNNG.

Repeated dose liver micronucleus assay using clofibrate in young adult rats.

The repeated-dose liver micronucleus (MN) assay is a newly established in vivo genotoxicity test for evaluation of liver carcinogens. It may be integrated into general toxicity studies, thereby reducing the numbers of animals required for assessment of chemical safety. A collaborative study by the Mammalian Mutagenicity Study (MMS) Group further evaluated this assay using a wide range of chemicals, including carcinogens and non-carcinogens in young adult rats. In this study, we administered clofibrate (125, 250, or 500mg/kg/day) for 14 or 28 days, and examined the micronucleated (MNed) cell frequencies in the liver and bone marrow. Clofibrate is a known liver carcinogen specific to rodents and has been shown to yield negative results in many in vitro genotoxicity and carcinogenicity tests in monkeys. Clofibrate is categorized as a Group 3 chemical by the International Agency for Research on Cancer and is considered a non-genotoxic carcinogen. After treatment with clofibrate for 14 or 28 days, frequencies of hepatic MNed cells were significantly increased, but there were no differences in the ratios of hepatic M-phase cells. Clofibrate did not increase the frequency of MNed cells in the bone marrow in the 14-day study, whereas a slight increase was observed at the highest dose in the 28-day study. These results suggested that the repeated-dose liver MN assay is more sensitive to clofibrate, an indirect liver carcinogen in rodents, than the conventional bone marrow MN assay.

Background data for hematological and blood chemical examinations in juvenile beagles.

As the first step to get historical background data for physiological examinations in juvenile dogs, hematology and blood chemistry data obtained from juvenile beagle dogs (less than 3 months of age) used in the control group of toxicity studies conducted in our laboratory were summarized and compared with those obtained from adult beagle dogs (6 months of age). In the hematological examination, growth of beagle dogs was shown to be associated with increases in erythrocyte parameters and with decreases in reticulocyte and leukocyte counts. In the blood chemical examination, growth of beagle dogs was shown to be associated with increases in aspartate aminotransferase, alanine aminotransferase, and creatinine and with decreases in creatine phosphokinase, glucose, total cholesterol, and calcium. The differential leukocyte ratio showed no age relation, but the actual count showed a tendency toward decrease. Alkaline phosphatase showed a tendency to increase from 0 months of age to 3 months of age, but it decreased at 6 months of age. The present results were roughly similar to those previously reported.

Genotoxicity evaluation of sesamin and episesamin.

Sesamin is a major lignan that is present in sesame seeds and oil. Sesamin is partially converted to its stereoisomer, episesamin, during the refining process of non-roasted sesame seed oil. We evaluated the genotoxicity of these substances through the following tests: a bacterial reverse mutation assay (Ames test), a chromosomal aberration test in cultured Chinese hamster lung cells (CHL/IU), a bone marrow micronucleus (MN) test in Crlj:CD1 (ICR) mice, and a comet assay using the liver of Sprague-Dawley (SD) rats. Episesamin showed negative results in the Ames test with and without S9 mix, in the in vitro chromosomal aberration test with and without S9 mix, and in the in vivo comet assay. Sesamin showed negative results in the Ames test with and without S9 mix. In the in vitro chromosomal aberration test, sesamin did not induce chromosomal aberrations in the absence of S9 mix, but induced structural abnormalities at cytotoxic concentrations in the presence of S9 mix. Oral administration of sesamin at doses up to 2.0g/kg did not cause a significant increase in either the percentage of micronucleated polychromatic erythrocytes in the in vivo bone marrow MN test or in the % DNA in the comet tails in the in vivo comet assay of liver cells. These findings indicate that sesamin does not damage DNA in vivo and that sesamin and episesamin have no genotoxic activity.

Age-dependent changes in the activity of serum alkaline phosphatase in laboratory beagle dogs.

In order to prepare background data for toxicity studies, serum alkaline phosphatase activity in a total of 5,242 male and female beagle dogs was surveyed for the sequence of changes in activity through aging. About 95% of the beagle dogs surveyed were 5 to 12 months of age, corresponding with the age usually employed in toxicity studies. Serum alkaline phosphatase (ALP) activity, about 460 IU/l at 5 months of age, steadily decreased and reached a level about one third of that (about 160 IU/l) at 12 months of age, and remained unchanged thereafter. The above findings were essentially the same irrespective of sex and breeding colony. The present results are useful information in the evaluation of blood chemistry data in toxicity studies.

Isolation of stimulants of gastrointestinal motility in beer.

BACKGROUND: Among various alcoholic beverages, it has reported that beer has a potent activity to stimulate gastric emptying. Our previous studies showed that beer congener stimulated gastrointestinal motility by directly stimulating muscarinic M3 receptor, present in smooth muscles of the gastrointestinal tract. However, active components that account for the action have yet to be identified. We attempted to isolate the stimulant(s) of gastrointestinal motility in beer. METHODS: Beer congener was prepared from beer and used to separate and purify active components by a series of liquid chromatography using affinity to muscarinic M3 receptor as an index. Gastrointestinal motility-stimulating activity was evaluated using a test for activity that causes contraction of longitudinal muscles in guinea pig ileum and a test for gastric emptying activity in mice. RESULTS: The active components (compounds A and B) were purified and isolated from beer by four liquid chromatography steps. The IC50 values of two active isolates to muscarinic M3 receptor were 0.65 x 10 g/ml and 2.30 x 10 g/ml, respectively. The concentrations of compounds A and B contained in beer were sufficient to explain most of the muscarinic M3 receptor binding activity of beer. The active fraction that contained both compounds A and B (which was 10 times as active as beer congener in muscarinic M3 receptor binding activity) dose-dependently contracted the longitudinal muscles of guinea pig ileum with an activity that was 20 times as potent as that of beer congener. The same active fraction significantly stimulated gastric emptying in mice with an activity 20 times as potent as that of beer congener. CONCLUSIONS: Two active components (compounds A and B) were isolated as gastrointestinal motility stimulants (muscarinic M3 agonists) in beer. These results suggest that the two isolated active components are the active entities of the gastrointestinal motility-stimulating effect of beer.

Effects of fusel oil on animal hangover models.

BACKGROUND: Fusel oil has been reported to have undesirable side effects such as hangover. However, the relationship between fusel oil and hangover has been investigated insufficiently. In this study, we investigated the effects of fusel oil and their ingredients contained in alcoholic beverages by using animal hangover models. METHODS: Ethanol and fusel oil were simultaneously administered to Suncus murinus, and emetic responses were observed for 60 min. Ethanol and fusel oil were simultaneously administered to mice immediately after intake of saccharin solution; on the next day, the mouse's saccharin solution intake was measured. RESULTS: The volatile fraction (fusel oil) of whisky had no remarkable effect on ethanol-induced emetic responses in suncus. Whisky had the most suppressive effect on ethanol-induced conditioned taste aversion in mice among the various alcoholic beverages tested. The volatile fraction (fusel oil) of whisky suppressed the ethanol-induced conditioned taste aversion. In contrast, the nonvolatile fraction of whisky had no effect. The administration of isoamyl alcohol (5 mg/kg) and isoamyl acetate (10 and 40 microg/kg), ingredients of fusel oil, significantly suppressed the ethanol-induced conditioned taste aversion. CONCLUSIONS: The fusel oil in whisky had no effect on the ethanol-induced emetic response, but it suppressed taste-aversion behavior in animal models of hangover symptoms. These results suggest that the fusel oil in whisky alleviates hangover, contrary to the common belief.

Beer congener stimulates gastrointestinal motility via the muscarinic acetylcholine receptors.

BACKGROUND: Ethanol and alcoholic beverages are known to affect upper gastrointestinal motility in humans. Beer has been reported to accelerate gastric emptying compared with other beverages that contain the same ethanol concentrations. In this study, we investigated the mechanism that underlies the effects of beer congener on gastrointestinal motility. METHODS: Gastric emptying activity was measured by means of movement of a semisolid test meal (0.05% phenol red/1.5% methylcellulose) in mice. To elucidate the mechanism for the effect of beer congener on gastrointestinal motility, we conducted receptor binding assays and contraction study by using longitudinal muscle from guinea pig ileum. RESULTS: Beer congener (1 g/kg orally) enhanced gastric emptying of a semisolid meal in mice. The receptor binding assay revealed that beer congener bound to dopamine D2 receptor and 5-hydroxytryptamine (5-HT)3 receptor. These IC50 values were more than 5 mg/ml. However, beer congener bound to 5-HT2 receptor, 5-HT4 receptor, and muscarinic M3 receptor with IC50 values of 2, 0.9, and 2 mg/ml, respectively. Beer congener (0.05-2 mg/ml) induced the contraction of longitudinal muscle from guinea pig ileum in a dose-dependent manner. This effect was not affected by either tetrodotoxin (10(-6)M) or ketanserin (10(-7)-10(-5)M), an antagonist for the 5-HT2 receptor. On the other hand, 4-DAMP (10(-8)-10(-5)M), an antagonist for the muscarinic M3 receptor, inhibited the contraction of the longitudinal muscle induced by beer congener (2 mg/ml) dose dependently. CONCLUSIONS: Beer congener stimulates gastrointestinal motility via the muscarinic M3 receptor.