Effects of Yinzhihuang on Alleviating Cyclosporine A-Induced Cholestatic Liver Injury via Farnesoid X Receptor-Mediated Regulation of Transporters and Enzymes in Vitro and in Vivo.

Yinzhihuang (YZH), a traditional Chinese medicine prescription, was widely used to treat cholestasis. Cholestatic liver injury limited the use of the immunosuppressive drug cyclosporine A (CsA) in preventing organ rejection after solid organ transplantation. Clinical evidences suggested that YZH could enhance bile acids and bilirubin clearance, providing a potential therapeutic strategy against CsA-induced cholestasis. Nevertheless, it remains unclear whether YZH can effectively alleviate CsA-induced cholestatic liver injury, as well as the molecular mechanisms responsible for its hepatoprotective effects. The purpose of the present study was to investigate the hepatoprotective effects of YZH on CsA-induced cholestatic liver injury and explore its molecular mechanisms in vivo and vitro. The results demonstrated that YZH significantly improved the CsA-induced cholestatic liver injury and reduced the level of liver function markers in serum of Sprague-Dawley (SD) rats. Targeted protein and gene analysis indicated that YZH increased bile acids and bilirubin efflux into bile through the regulation of multidrug resistance-associated protein 2 (Mrp2), bile salt export pump (Bsep), sodium taurocholate cotransporting polypeptide (Ntcp) and organic anion transporting polypeptide 2 (Oatp2) transport systems, as well as upstream nuclear receptors farnesoid X receptor (Fxr). Moreover, YZH modulated enzymes involved in bile acids synthesis and bilirubin metabolism including Cyp family 7 subfamily A member 1 (Cyp7a1) and uridine 5'-diphosphate (UDP) glucuronosyltransferase family 1 member A1 (Ugt1a1). Furthermore, the active components geniposidic acid, baicalin and chlorogenic acid exerted regulated metabolic enzymes and transporters in LO2 cells. In conclusion, YZH may prevent CsA-induced cholestasis by regulating the transport systems, metabolic enzymes, and upstream nuclear receptors Fxr to restore bile acid and bilirubin homeostasis. These findings highlight the potential of YZH as a therapeutic intervention for CsA-induced cholestasis and open avenues for further research into its clinical applications.

Cytotoxicity and apoptosis induced by enrofloxacin in loach fin cells in vitro.

The cytotoxic effect and cell death were studied in loach fin cells in vitro after enrofloxacin (ENR) exposure. The semi-lethal concentration of ENR for loach cells was calculated as 1296.2 ± 3.11 mol/L (about 512.5 mg/L). Loss of cell viability, increase in vacuoles, disappearance of microvilli, and apoptotic bodies were evident in cells exposed to 400, 800, and 1200 µmol/L ENR. Besides, dose-dependent inhibitory effects on SOD, CAT, Na+-K+-ATPase, and Ca2+-ATPase activities were also observed in loach cells exposed to ENR. Quantitative gene expression results showed that ENR induced caspase-3- and caspase-8-mediated apoptosis as well as caspase-activated DNase in loach cells. The findings also indicated a role of JNK pathway in ENR-induced apoptosis in loach cells. Transcriptome sequencing results showed 10,016 differentially expressed genes in ENR vs. control groups, which were all enriched in "Molecular Function" process in GO term. Furthermore, 6763 genes were enriched in 291 KEEG pathways, with most of them belonging to immune and material metabolic pathways. The large number of transcriptome data and pathways determined in this study provide a database foundation for the toxicity analysis of ENR in loach cells, which must be thoroughly examined to further investigate the cytotoxic mechanism of antibiotics in fish cells.

Effect of capsaicin on breast cancer resistance protein (BCRP/Abcg2) and pharmacokinetics of probe substrates in rats.

Breast cancer resistance protein (BCRP/Abcg2 in human, Bcrp/Abcg2 in rat), a member of the ATP-binding cassette (ABC) transporter family, acts as an efflux pump for xenobiotics, with ability to transport various drugs out of cells. Capsaicin may have the potential to modulate the function of Bcrp transport. This study was to evaluate the effects of capsaicin on the pharmacokinetics of sulfasalazine, a Bcrp substrate, in rats and investigate the mechanism of this food-drug interaction.The rats were pre-treated with 5% carboxymethylcellulose sodium (vehicle), capsaicin (3, 8, 25 mg/kg) and cyclosporine A (10 mg/kg) by gastric gavage for 7 days. On day 7, blood, liver and intestine samples were collected after sulfasalazine administered. Liquid chromatography tandem mass spectrometry (LC-MS/MS) was used to study the effects of capsaicin on the pharmacokinetics of sulfasalazine in rats. RT-PCR and western blotting were used to study the mechanism in biomolecules in rats, respectively.Compared with vehicle group, AUC0-∞ of sulfasalazine in rats were increased by 1.5-folds, 1.6-folds and 1.7-folds in 3, 8 and 25 mg/kg/d capsaicin pre-treated groups. At the same time, the CL/F in rats were decreased by 33%, 38% and 42% in the three groups. In addition, we found Bcrp mRNA levels and protein expressions in rat livers and intestines were decreased in 3, 8 and 25 mg/kg/d capsaicin-treated groups.Our study demonstrated that long-term ingestion of capsaicin significantly enhanced the AUC of sulfasalazine involved down-regulate Bcrp gene and protein expression in rat liver and intestine.

Effects of cyclosporin A on the pharmacokinetics and toxicities of irinotecan mediated by UGT1A1 in vitro and in vivo.

Irinotecan (CPT-11) is a broad spectrum agent for the treatment of solid tumor malignancies, despite severe diarrhea is limiting its widespread usage. The local effects of SN-38 in the small intestine were considered to be responsible for the irinotecan-induced delayed diarrhea. It was proposed that cyclosporin A (CsA) inhibiting biliary excretion could attenuate this side effect, but in fact, it could not improve the therapeutic index of irinotecan. At present, most studies focused on the inhibition of bile excretion by cyclosporin A through the transporters MRP2 and MDR1 and its effect the irinotecan treatment in vivo. However, UDP glucuronyltransferase-1 polypeptide A1 (UGT1A1) was related to a significantly altered disposition of irinotecan and its metabolites, and was therefore associated with irinotecan-induced toxicity. This study focused on UGT1A1-mediated conversion of SN-38 to SN-38G, and systematically investigated the CsA-irinotecan interactions in vitro and in vivo. After treatment with 10 mg·kg-1 CsA for 7 days, the bile excretion of irinotecan and its metabolites decreased and AUC0-∞ increased significantly. The AUC0-∞ (SN-38G)/AUC0-∞ (SN-38) was significantly reduced when compared with that in vehicle-treated rats. In the liver microsome incubation system, the IC50 of CsA for UGT1A1 enzyme was 9.4 µM. Furthermore, the UGT1A1 mRNA and protein expression levels were significantly reduced. The present study indicated that CsA treatment could enhance the systemic exposure and toxicity of SN-38 by inhibiting the UGT1A1 enzyme. The inhibition of UGT1A1 enzyme might be a critical factor in the failure of CsA improving irinotecan's treatment index.

IDO and TDO as a potential therapeutic target in different types of depression.

Depression is highly prevalent worldwide and a leading cause of disabilty. However, the medications currently available to treat depression fail to adequately relieve depressive symptoms for a large number of patients. Research into the aberrant overactivation of the kynurenine pathway and the production of various active metabolites has brought new insight into the progression of depression. IDO and TDO are the first and rate-limiting enzymes in the kynurenine pathway and regulate the production of active metabolites. There is substantial evidence that TDO and IDO enzyme are activated during depression, and therefore, IDO and TDO inhibitors have been identified as ideal therapeutic targets for depressive disorder. Hence, this review will focus on the kynurenine branch of tryptophan metabolism and describe the role of IDO and TDO in the pathology of depression. In addition, this review will compare the relative imbalance between KYNA and neurotoxic kynurenine metabolites in different psychiatric disorders. Finally, this review is also directed toward assessing whether IDO and TDO are potential therapeutic target in depression associated with other diseases such as diabetes and/or cancer, as well as the development of potent IDO and TDO inhibitors.

Effects of aprepitant on the pharmacokinetics of imatinib and its main metabolite in rats.

Aprepitant (APT), an antiemetic drug belonging to the class of substance P antagonists is efficiently used in both acute and delayed chemotherapy-induced nausea and vomiting. Nausea and vomiting induced by imatinib (IMA) as a chemotherapeutic drug could be reduced by APT. This study investigated the effect of APT on the pharmacokinetics of IMA and its major metabolite N-desmethyl imatinib (N-D IMA) in rats and the mechanism of this drug-drug interaction. The results indicated that after 3 days of pretreatment with APT (10 mg/kg), the blood concentration of IMA was decreased in both of oral and intravenous routes of IMA administration compared to vehicle treated rats, whereas the blood concentration of N-D IMA was not significantly changed. The total clearance (CL/F) of oral and intravenous given IMA was increased by 1.41 and 1.32-fold, and the bioavailability was greatly decreased about 30.43% and 24.40% respectively. At this time, the P-gp and the hepatic CYP3A1 were increased at both the mRNA and protein levels. These results demonstrated that ingestion of APT will decrease the bioavailability of IMA to a significant extent in rats and the drug-drug interaction between APT and IMA appears to be due to modulation of P-gp and CYP3A1.

Analysis of Different Ploidy and Parent-Offspring Genomic DNA Methylation in the Loach Misgurnus anguillicaudatus.

In this study, we selected natural polyploidy loach (diploid, triploid and tetraploid) and hybrid F1 generation obverse cross (4 × 2) and inverse cross (2 × 4) by diploids and tetraploids as the research model. The MSAP (methylation-sensitive amplified polymorphism) reaction system was established by our laboratory to explore methylation levels and pattern diversification features at the whole genome level of the polyploidy loach. The results showed that the total methylation and full methylation rates decreased on increased ploidy individuals; moreover, the hemimethylation rate showed no consistent pattern. Compared with diploid loach, the methylation patterns of tetraploid sites changed 68.17%, and the methylation patterns of triploid sites changed 73.05%. The proportion of hypermethylation genes is significantly higher than the proportion of demethylation genes. The methylation level of reciprocal cross F1 generation is lower than the male diploid and higher than the female tetraploid. The hemimethylation and total methylation rate of the cross hybrid F1 generation is significantly higher than the orthogonal F1 generation (p < 0.01). After readjusting, the methylation pattern of genome DNA of reciprocal hybrids changed 69.59% and 72.83%, respectively.

Establishment and characterization of fin cell lines from diploid, triploid, and tetraploid oriental weatherfish (Misgurnus anguillicaudatus).

Continuous fin cell lines from diploid, triploid, and tetraploid oriental weatherfish, Misgurnus anguillicaudatus, were established and characterized. The cell lines, designated DIMF, TRMF, and TEMF, respectively, were subcultured more than 80 times since initiation in October 2012 and were preserved at the China Center for Type Culture Collection as sample numbers C2013109, C2013110, C2013111, respectively. The cell lines consist predominantly of fibroblast-like cells. At the 50th passage, the population doubling times were 48.43 h (DIMF), 36.01 h (TRMF), and 41.45 h (TEMF). Cell survival rate of these three kinds of cells was 80.88 ± 1.38, 84.48 ± 1.13, and 81.57 ± 1.28 %, respectively, when recovered after storage in liquid nitrogen for 60 days at the 40th passage. The chromosome numbers measured from 100 metaphase plates at the 50th passage were 2n = 50 (68 %), 3n = 75 (59 %), and 4n = 100 (54 %) for DIMF, TRMF, and TEMF cells, respectively. At the 60th passage, the chromosome numbers for DIMF and TRMF cells were still 50 (52 %) and 75 (70 %), but the chromosome number for TEMF cells ranged from 88 to 100; a chromosome number of 96 accounted for 26 % of the cells, and the karyotype analysis showed 4n = 96, 16 m + 8sm + 72t, NF = 120; thus, compared with cells at the 50th passage, a group of metacentric chromosomes was missing. Microsatellite marker analysis was conducted using DIMF, TRMF, and TEMF cells and muscle tissue of oriental weatherfish, which confirmed that the three cell lines established in this study were from oriental weatherfish. The cell lines were exposed to two fish viruses to determine their susceptibility to infection; they were susceptible to spring viremia of carp virus but not to piscine nodavirus. Establishment of fin cell lines from different ploidy oriental weatherfish increases the existing number of fish cell lines available for research, and it provides a model for investigating the mechanisms of growth and genetics in polyploid fish.

Molecular cloning and expression analysis of inhibitor of growth protein 3 (ING3) in the Manila clam, Ruditapes philippinarum.

Inhibitor of growth protein 3 (ING3), a new member of ING family, is involved in the regulation of various processes. In this study, a full-length cDNA of ING3 (named as RpING3) was cloned from the gill of Ruditapes philippinarum by rapid amplification of cDNA ends method for the first time. The cDNA obtained was 1442 bp exclusive of poly (A) residues with a 1248 bp open reading frame encoding 415 amino acids. The RpING3 protein has a calculated molecular weight of 46.59 kDa and isoelectric point of 6.62. Two conserved motif and some functional sites were found. Tissue distribution analysis of the RpING3 mRNA revealed that the RpING3 expression level was much higher in gill and digestive gland while lower in mantle, foot and adductor muscle. The temporal expression of RpING3 in digestive gland after lead exposure was recorded by quantitative real-time PCR. The result showed that RpING3 was rapidly up-regulated at 6 h post-exposure and reached tenfold of the control group. These results suggest that RpING3 dependent signaling pathway is present in Manila clam and RpING3 may play important roles in protecting cells from heavy metal damage in R. philippinarum.