Effect of SMP-028 on steroidogenesis in rats; mechanism of toxicological events on endocrine organs of rats.

SMP-028 is a new compound for treatment of asthma. Oral administration of SMP-028 to rats was associated with toxicological events in endocrine organs. These events mainly consisted of pathological changes in the adrenal gland, testis, prostate, seminal vesicle, ovaries, and uterus. In this study, we set to clarify whether SMP-028 inhibits steroidogenesis in primary culture cells obtained from rat endocrine organs in vitro. Adrenal cells, testicular cells, and ovarian cells were treated with SMP-028 and the production of steroid hormones, i.e., progesterone, aldosterone, corticosterone, total testosterone, and estradiol from these cells was measured by radioimmunoassay. We found that the production of progesterone from these cells treated with SMP-028 at 1 µM decreased to 16-67% that of the control. These findings indicate that SMP-028 inhibits steroidogenesis in rat endocrine organs in vitro. Considering that free maximum concentration in rats treated with SMP-028 are higher than the IC50 values for the inhibition of steroidogenesis in vitro, it is therefore believed that the toxicological events seen in rats following treatment with SMP-028 are due to inhibition of steroidogenesis in vivo.

Epigenetic regulation of organic anion transporting polypeptide 1B3 in cancer cell lines.

PURPOSE: The expression of a multispecific organic anion transporter, OATP1B3/SLCO1B3, is associated with clinical prognosis and survival of cancer cells. The aims of present study were to investigate the involvement of epigenetic regulation in mRNA expression of a cancer-type variant of OATP1B3 (Ct-OATP1B3) in cancer cell lines. METHODS: The membrane localization and transport functions of Ct-OATP1B3 were investigated in HEK293 cells transiently expressing Ct-OATP1B3. DNA methylation profiles around the transcriptional start site of Ct-OATP1B3 in cancer cell lines were determined. The effects of a DNA methyltransferase inhibitor and siRNA knockdown of methyl-DNA binding proteins (MBDs) on the expression of Ct-OATP1B3 mRNA were investigated. RESULTS: 5'-RACE identified the TSS of Ct-OATP1B3 in PK-8 cells. Ct-OATP1B3 was localized on the plasma membrane, and showed the transport activities of E217ßG, fluvastatin, rifampicin, and Gd-EOB-DTPA. The CpG dinucleotides were hypomethylated in Ct-OATP1B3-positive cell lines (DLD-1, TFK-1, PK-8, and PK-45P) but were hypermethylated in Ct-OATP1B3-negative cell lines (HepG2 and Caco-2). Treatment with a DNA methyltransferase inhibitor and siRNA knockdown of MBD2 significantly increased the expression of Ct-OATP1B3 mRNA in HepG2 and Caco-2. CONCLUSIONS: Ct-OATP1B3 is capable of transporting its substrates into cancer cells. Its mRNA expression is regulated by DNA methylation-dependent gene silencing involving MBD2.

DNA methylation and histone modification profiles of mouse organic anion transporting polypeptides.

Organic anion transporting polypeptides (rodents, Oatps; human, OATPs) are primarily involved in the transmembrane transportation of a wide range of endogenous and exogenous compounds. Multiple mouse Oatp1 isoforms are closely located on chromosome 6, where each isoform shows distinct tissue distribution; Oatp1b2, Oatp1a6, and Oatp1c1 are expressed exclusively in the liver, kidney, and cerebrum, respectively; Oatp1a1 in the liver and kidney; and Oatp1a4 in the liver and cerebrum. We have identified tissue-dependent differentially methylated region (T-DMR) around the transcriptional start site (TSS) of Oatp1b2, which correlates with its liver-specific expression. Bisulfite sequencing also demonstrated the presence of T-DMRs around the TSS in other Oatp1 genes: CpG dinucleotides at +149 relative to the TSS for Oatp1c1; -48, +101, and +356 for Oatp1a4; -572 and -550 for Oatp1a1; and -122 and +216 for Oatp1a6 were differentially methylated among the liver, kidney, and cerebrum. These methylation profiles were largely consistent with the tissue distribution of Oatp1 mRNAs. Chromatin immunoprecipitation assay revealed that the mRNA expression of Oatp1 genes was accompanied by acetylated histone H3. Human OATP1B1 and OATP1B3 are located on chromosome 12p12 in the OATP1 cluster; both show predominant expression in the liver. These genes also contained T-DMRs that were hypomethylated in the liver, compared with kidney cortex: -511, -411, and +92 relative to the TSS for OATP1B1 and -331, +70, and +73 for OATP1B3. These results suggest that the difference in epigenetic profiles comprising DNA methylation and histone acetylation determines the distinct tissue distribution of Oatp/OATP mRNAs.

DNA methylation profiles of organic anion transporting polypeptide 1B3 in cancer cell lines.

PURPOSE: Multispecific organic anion transporter, OATP1B3/SLCO1B3, is expressed in several cancer cell lines as well as tumor tissues, and its expression sensitizes the cells to some anti-cancer agents. The present study was aimed to characterize the DNA methylation profiles around the transcriptional start site (TSS) of OATP1B3 and correlate them with the mRNA expression in cancer and immortalized cell lines. METHODS: The mRNA expression and DNA methylation profiles of OATP1B3 were determined by RT-PCR and bisulfite sequencing, respectively. RESULTS: The expression of OATP1B3 mRNA was detected in DLD-1, TFK-1, PK-8, and PK-45P cells, but below the limit of detection in HepG2, Caco-2, and HEK293 cells. Bisulfite sequencing demonstrated that CpG dinucleotides around the TSS are differentially methylated among cell lines and partly associated with the mRNA expression profile of OATP1B3. Furthermore, treatment with 5-aza-2'-deoxycytidine, an inhibitor of DNA methyltransferase, significantly increased the mRNA expression of OATP1B3 in HepG2 and Caco-2 cells by 18- and 14-fold, respectively, but not in DLD-1 and TFK-1 cells. CONCLUSION: DNA methylation-dependent gene silencing is at least partly involved in the regulation of OATP1B3 expression in cancer/immortalized cell lines.

Analysis of DNA methylation and histone modification profiles of liver-specific transporters.

Tissue-specific expression of transporters is tightly linked with their physiological functions through the regulation of the membrane transport of their substrates. We hypothesized that epigenetic regulation underlies the tissue-specific expression of mouse liver-specific transporters (Oatp1b2/Slco1b2, Ntcp/Slc10a1, Bsep/Abcb11, and Abcg5/g8). We examined their DNA methylation and histone modification profiles near the transcriptional start site (TSS) in the liver, kidney, and cerebrum. Genome-wide DNA methylation profiling with tissue-dependent differentially methylated region profiling with restriction tag-mediated amplification and subsequent bisulfite genomic sequencing demonstrated that the CpG dinucleotides around the TSS of Oatp1b2 (from -515 to +149 CpGs), Ntcp (from -481 to +495 CpGs), Bsep (from -339 to +282 CpGs), and Abcg5/g8 (from -161 to +5 CpGs for Abcg5, i.e., from -213 to -48 CpGs for Abcg8) were hypomethylated in the liver and hypermethylated in the kidney and cerebrum. The opposite pattern was observed for Pept2/Slc15a2 (from -638 to +4 CpGs), which was expressed in the kidney and cerebrum but not in the liver. These DNA methylation profiles are consistent with the tissue distribution of these transporters. A chromatin immunoprecipitation assay demonstrated that the histone H3 associated with Oatp1b2, Ntcp, Bsep, and Abcg5/g8 promoters was hyperacetylated in the liver but was acetylated very little in the kidney and cerebrum, whereas the upstream region of Pept2 was hyperacetylated only in the kidney and cerebrum. These results suggest the involvement of epigenetic systems in the tissue-specific expression of mouse transporters Oatp1b2, Ntcp, Bsep, Abcg5/g8, and Pept2.

The new acyl-CoA cholesterol acyltransferase inhibitor SMP-797 does not interact with statins via OATP1B1 in human cryopreserved hepatocytes and oocytes expressing systems.

It is possible that SMP-797 will be administered frequently in combination with statins to hyperlipidemic patients. OATP1B1 is thought to be the major transporter that mediates the hepatic uptake of statins. This study investigated whether SMP-797 interacts with statins via OATP1B1 by two approaches. Firstly, the effects of SMP-797 on OATP1B1-mediated uptake of estrone-3-sulfate (ES) by human hepatocytes and by oocytes expressing OATP1B1 were examined. Since OATP1B1-mediated uptake of ES is known to be biphasic (high- and low-affinity sites), concentrations of [(3)H]ES were set lower than the respective K(m) values. Two representative statins were used to assure that statins share OATP1B1 with [(3)H]ES in this in vitro system. Rosuvastatin inhibited OATP1B1-mediated uptake of [(3)H]ES through both sites and pravastatin inhibited a high-affinity site. The inhibition by the positive control (cyclosporin A) was significant. Thus, it is considered that this system was applicable to examine drug-drug interaction with statins on OATP1B1-mediated uptake. In this condition, no apparent inhibition to each site by SMP-797 was observed up to a concentration 3,000-fold higher than the clinical level. Secondly, the uptake of [(14)C]SMP-797 by oocytes expressing OATP1B1 was examined and the activity was negligible. In conclusion, these data suggest that SMP-797 has little potential to interact with statins on OATP1B1.