Transferability of a modified embryonic stem cell test using a new endpoint for developmental neurotoxicity.

We developed and analyzed a new surrogate endpoint of the mouse embryonic stem cell test (EST) for developmental neurotoxicity. To determine the sensitivity, specificity, and transferability of the new endpoint, a pre-validation team from three independent laboratories optimized and standardized the protocol for neuronal differentiation of mouse embryonic stem cells (mESCs) by measuring the neuronal differentiation rates of mESCs under different culture conditions, such as the presence or absence of basic fibroblast growth factor (bFGF) in the growth media and varying lengths of culture. In addition, a component ratio of neuronal cells was measured by using flow cytometry analysis of ß-III tubulin (Tuj1)-positive cells and real-time polymerase chain reaction analysis of microtubule-associated protein 2 (MAP2) mRNA. Our results showed that the best growth was achieved by culturing mESCs for 12 d in N2B27 medium without bFGF or ascorbic acid. Lead (II) acetate and aroclor 1254 were used to test the usefulness of the new endpoint. When we used the known ID(50) values for lead (II) acetate in the EST model, it was classified as non-embryotoxic; however, when we used the new ID(50) values that we determined in this study, it was classified as weakly embryotoxic. Aroclor 1254 and penicillin G were also classified as weakly embryotoxic and non-embryotoxic compounds, respectively, when cardiac and neuronal differentiation ID(50) values were used. Therefore, our new surrogate endpoint for developmental neurotoxicity is not only sensitive and specific but also transferable among laboratories.

Signal detection of methylphenidate by comparing a spontaneous reporting database with a claims database.

Data mining is critical for signal detection in pharmacovigilance systems. In this study, we compared signals between spontaneous reporting data and health insurance claims data for a socially issued drug, methylphenidate. We implemented data-mining tools for signal detection in both databases: Reporting Odds Ratios (ROR), Proportional Reporting Ratios (PRR), Chi-squared test, and Information Component (IC), in addition to a Relative Risk (RR) tool in the claims database. The claims database generated 15, 15, 36, 1, and 1 adverse drug reactions (ADRs) by ROR, PRR, chi-square, IC, and RR, respectively. The World Health Organization (WHO) spontaneous database generated 91, 91, 137, and 96 ADRs by ROR, PRR, chi-square, and IC, respectively. We found seven potential matching associations from the claims and WHO databases, but only one of them was present in the Korean spontaneous reporting database. In Korea, spontaneous reporting is still underreported and there is a small amount of data for Koreans. Signal comparison between the claims and WHO databases can provide additional regulatory insight.

Assessment of heavy metal exposure via the intake of oriental medicines in Korea.

Oriental medical herbs are mainly natural products that are generated by simple processes, and therefore there is the possibility of contamination with various pollutants, including heavy metals. Heavy metals produce adverse effects in humans, and the toxicities of lead (Pb) and cadmium (Cd) are well established. This study evaluated the effects of exposure to Pb and Cd via the intake of the frequent prescriptions of oriental medicines, and assessed the risk to the Korean population based on domestic data. The average daily exposures to Pb and Cd were estimated. This is the first study to evaluate exposure and risk of heavy metal intoxication through intake of oriental medicines in Korea. Despite the uncertainties and limits of the data, these results simulate realistic exposure levels.

Toxicity value for 3-monochloropropane-1,2-diol using a benchmark dose methodology.

3-Monochloropropane-1,2-diol (alpha-chlorohydrin, 3-MCPD) is a well-known contaminant that has been detected in a wide range of foods, and that is principally generated in foods prepared by hydrochloric acid hydrolysis, such as acid-hydrolyzed vegetable protein (acid-HVP). 3-MCPD is nephrotoxic to animals at high doses and induced tumors in some organs in both sexes of rodents. NITR have recently reported on the carcinogenicity of 3-MCPD in SD rats that were exposed for 2 years to drinking water. We considered that the kidney was the main target organ for 3-MCPD in SD rats and that renal tubular hyperplasia was the most sensitive endpoint. Benchmark dose analysis of the dose-response data for renal tubular hyperplasia in male and female rats exposed to 3-MCPD in drinking water for 2 years was conducted. We applied this to the benchmark dose (BMD) methodology to yield a point of departure for developing tolerable daily intakes (TDIs). The calculated BMDs and lower-bound confidence limits (BMDLs) for the critical endpoint were estimated using the seven different models. Predicted doses associated with 10% extra risk were calculated. The smallest Akaike's Information Criterion (AIC) was used in selecting the appropriate model. The model chosen by AIC for males was the logistic and for females it was the multistage. In summary, the predicted BMD(10) and BMDL(10) were 1.21 mg/kg bw/day and 0.87 mg/kg bw/day for the male rat incidence data, and values for female rats were 26.31 mg/kg bw/day and 19.47 mg/kg bw/day. In this study, the BMDL(10) of 0.87 mg/kg bw/day for male rats was suggested as the point of departure for deriving the human tolerable daily intake level of 3-MCPD.

Safety assessment of chromium by exposure from cosmetic products.

Low level impurities often reside in cosmetic products. The aim of the present study was to estimate the human exposure to chromium from cosmetic products purchased at a local market in South Korea, and to assess the risk on public health. Hexavalent chromium is an impurity substance that contaminates cosmetic products during manufacture. The potential for chromium to induce and elicit allergic contact dermatitis, as well as the degree of chromium exposure from cosmetic products, were assessed. Chromium exposure was estimated using the chromium concentrations found in cosmetic samples taken from the local market along with the expected user pattern data that was taken from the literature. Of the cosmetics we tested and available for purchase on the Korean market, seven had chromium contents above the detection limit of 0.1 ppm (0.1 microg/mL), ranging from 0.2 to 3.15 ppm. In risk assessment, scientifically defensible dose-response relationships must be established for the end points of concern. In the case of chromium contaminated cosmetic products, this includes conducting dose-response assessments for allergic contact dermatitis following dermal exposure. This dose-response information can then be integrated with site-specific exposure assessments to regulate consumer safety by use of these products. We found that dermal exposure to chromium concentrations ranging from 0.0002 to 0.003 microg/cm(2) does not appear to cause concern for eliciting allergic contact dermatitis.

Effects and regulation of osteopontin in rat hepatic stellate cells.

Using a cDNA microarray, we identified osteopontin (OPN) as one of the genes upregulated in cultured activated hepatic stellate cells (HSCs). Northern and western blot analyses showed that OPN was increasingly expressed during the progressive activation of cultured rat HSCs, and a significant increase in OPN was observed in carbon tetrachloride-induced rat liver fibrosis. In biliary atresia, OPN protein was predominantly expressed in Kupffer cells and HSCs in the necrotic areas. Incubation of HSCs with recombinant OPN-induced significant proliferative and migratory effects, and induced matrix metalloproteinase 2 production and activation. Moreover, OPN increased type I collagen production and type II transforming growth factor-beta receptor mRNA and protein. In conclusion, this study shows that OPN is expressed in activated HSCs and suggests that the upregulation of OPN might be a central pathway of HSC activation.

Methamphetamine-induced apoptosis in a CNS-derived catecholaminergic cell line.

Methamphetamine (METH) causes neurotoxic damages to the dopaminergic system in mammals, but whether it exerts toxicity to dopamine cells in culture has not been fully explored. In order to develop an in vitro model of METH-induced dopamine neurotoxicity toward more systemical examination of the mechanism, we investigated METH toxicity in a clonal dopamine producing cell line (CATH.a). We show in the present study that METH produces a time- and dose-dependent increase in cell death via a process similar to apoptosis. The METH toxicity seems to be produced by oxidative stress, as it was attenuated by the antioxidant glutathione, and to involve dopamine because dopamine release and synthesis inhibitors attenuated the toxicity. This catecholaminergic cell line derived from the central nervous system may become a useful in vitro model to elucidate the mechanism underlying the METH-induced dopaminergic neuronal damage.

In vitro pharmacodynamics of CKD-602 in HT-29 cells.

CKD-602 (7-[2-(N-isopropylamino)ethyl]-(20S)-camptothecin) is a recently-developed synthetic camptothecin analogue and currently under clinical development by Chong Kun Dang Pharm (Seoul, Korea). CKD-602 showed potent topoisomerase inhibitory activity in vitro and broad antitumor activity against various human tumor cells in vitro and in vivo in animal models. This study describes the pharmacodynamics of the immediate and delayed cytotoxicity induced by CKD-602 in a human colorectal adenocarcinoma cell line, HT-29, and its intracellular drug accumulation by HPLC. The present study was designed to address whether the higher activity of CKD-602 with prolonged exposure is due to delayed exhibition of cytotoxicity and/or an accumulation of antiproliferative effect on continuous drug exposure. The drug uptake study was performed to determine whether the delayed cytotoxicity is due to a slow drug accumulation in cells. CKD-602 produced a cytotoxicity that was exhibited immediately after treatment (immediate effect) and after treatment had been terminated (delayed effect). Both the immediate and delayed effects of CKD-602 showed a time dependent decrease in IC50 values. Drug uptake was biphasic and the second equilibrium level was obtained as early as at 24 hr, indicating that the cumulative and delayed antitumor effects of CKD-602 were not due to slow drug uptake. On the other hand, CKD-602 treatment was sufficient to induce delayed cytotoxicity after 4 hr, however, longer treatment (>24 hr) enhanced its cytotoxicity due to the intracellular accumulation of the drug, which requires 24 hr to reach maximum equilibrium concentration. In addition, Cn x T=h analysis (n=0.481) indicated that increased exposure times may contribute more to the overall antitumor activity of CKD-602 than drug concentration. Additional studies to determine the details of the intracellular uptake kinetics (e.g., concentration dependency and retention studies) are needed in order to identify the optimal treatment schedules for the successful clinical development of CKD-602.

Biodistribution and in vivo efficacy of genetically modified human mesenchymal stem cells systemically transplanted into a mouse bone fracture model.

Human mesenchymal stem cells (hMSCs) have generated a great deal of interest in clinical application due to their ability to undergo multi-lineage differentiation. Recently, ex vivo genetic modification of hMSCs was attempted to increase their differentiation potential. The present study was conducted to evaluate the biodistribution and in vivo efficacy of genetically modified hMSCs. To accomplish this, Runx2, which is a key transcription factor associated with osteoblast differentiation, was transduced into hMSCs using lentiviral vectors expressing green fluorescent protein (GFP) or luciferase. Here, we developed an experimental fracture in mice femur to investigate the effects of Runx2-transduced hMSCs on bone healing and migration into injury site. We conducted bio-luminescence imaging (BLI) using luciferase-tagged vector and quantitative real-time PCR using GFP probe to investigate the biodistribution of Runx2-transduced hMSCs in the fracture model. The biodistribution of hMSC cells in the fractured femur was observed at 14 days post-transplantation upon both BLI imaging and real-time PCR. Moreover, the fractured mice transplanted with Runx2-transduced hMSCs showed superior bone healing when compared to mock-transduced hMSC and MRC5 fibroblasts which were used as control. These data suggested that transplanted genetically modified hMSCs systemically migrate to the fractured femur, where they contribute to bone formation in vivo.

Deleterious effects of silymarin on the expression of genes controlling endothelial nitric oxide synthase activity in carbon tetrachloride-treated rat livers.

AIMS: Defects in intrahepatic nitric oxide (NO) are attributed to reduced blood flow due to portal hypertension caused by diminished endothelial NO synthase (eNOS) activity. The aim of this study is to identify the therapeutic effects of silymarin on eNOS/NO-related enzymes and hepatic enzymes in carbon tetrachloride (CCl4)-induced cirrhotic rats. MAIN METHODS: CCl4 treated for 12 weeks was discontinued and then administrated with silymarin daily for 4 weeks. Collagen concentrations were determined by measuring hydroxyproline content. Serum was assayed for hepatic enzymes like alanine aminotransferase (ALT), aspartate aminotransferase (AST) and alkaline phosphatase (ALP) activities. NOS activities were measured by oxyhemoglobin oxidation assay, and levels of enzyme expression and phosphorylation were detected by Western-blot analyses. KEY FINDINGS: Silymarin treatment restored the values for collagen content and ALT and ALP activities when compared to the values with spontaneous resolution following discontinuation of CCl4. CCl4 treatment highly increased eNOS expression and NOS activity in livers, but the phosphorylation was markedly decreased. Silymarin decreased significantly eNOS expression and activity. Expression and/or phosphorylation of enzymes activating eNOS were unchanged (Akt and AMPK) or decreased (PKA) by silymarin. Especially, the expression of caveolin-1, an inhibitor of eNOS was unchanged by CCl4, but its phosphorylation was significantly increased. However, silymarin markedly increased caveolin-1 expression but decreased its phosphorylation to expression. SIGNIFICANCE: These results suggest that chronic silymarin treatment can improve cirrhosis-induced liver enzyme activities and fibrosis, but may aggravate the hemodynamic eNOS activity, particularly by decreasing eNOS expression and increasing caveolin-1 expression.