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MUC5AC overproduction is commonly observed in chronic inflammatory lung diseases and worsens these conditions. CH6953755 Therefore, drugs that inhibit MUC5AC production are urgently needed. To identify novel drugs directly inhibiting MUC5AC production, 640 already approved drugs were screened. We found that the laxative bisacodyl suppressed transforming growth factor (TGF)-α-induced MUC5AC production in a concentration-dependent manner. Additionally, bisacodyl also suppressed TGF-α-induced MUC5AC mRNA expression in the same concentration range. These results suggested that bisacodyl could be a new drug for treating mucin overproduction.The inhibitory and stimulatory effects of steroid hormones and related compounds on the hydroxylation activity at the 6β-position of two steroid hormones, progesterone and testosterone, by CYP3A4, polymorphically expressed CYP3A5, and fetal CYP3A7 were compared to clarify the catalytic properties of the predominant forms of the human CYP3A subfamily. Hydroxylation activities of progesterone and testosterone by CYP3A4, CYP3A5, and CYP3A7 were estimated using HPLC. The Michaelis constants (Km) for progesterone 6β-hydroxylation by CYP3A5 were markedly decreased in the presence of dehydroepiandrosterone (DHEA) and α-naphthoflavone (ANF), whereas progesterone and DHEA competitively inhibited testosterone 6β-hydroxylation mediated by CYP3A4, and progesterone competitively inhibited CYP3A5-mediated activity, which was weaker than that for CYP3A4. ANF noncompetitively inhibited testosterone 6β-hydroxylation mediated by both CYP3A4 and CYP3A5. Progesterone and testosterone 6β-hydroxylation mediated by CYP3A7 was inhibited or unaffected by DHEA, pregnenolone, and ANF. These results suggested that DHEA and ANF stimulated progesterone 6β-hydroxylation by CYP3A5 but not by CYP3A4 and CYP3A7; however, progesterone, DHEA, and ANF inhibited testosterone 6β-hydroxylation mediated by all CYP3A subfamily members. The inhibitory/stimulatory pattern of steroid-steroid interactions is different among CYP3A subfamily members and CYP3A5 is the most sensitive in terms of activation among the CYP3A subfamily members investigated.We had previously reported that treatment with the aryl hydrocarbon receptor (AHR) agonist β-naphthoflavone (βNF) suppressed mammosphere formation derived from cancer stem cells in human breast cancer MCF-7 cells (Cancer Lett., 317, 2012, Zhao et al.). Here, using several AHR agonists, we have investigated the association of this suppression with the classical ability to induce AHR-mediated gene transcription in the xenobiotic response element (XRE). The mammosphere formation assays were performed using wild-type and AHR-knockout MCF-7 cells in the presence of AHR agonists including 3-methylcholanthrene (3MC), benzo[a]pyrene (BaP), 7,12-dimethylbenz[a]anthracene (DMBA), 6-formylindolo[3,2-b]carbazole (FICZ), indirubin, indole-3-carbinol (I3C), indole-3-acetic acid (IAA), and kynurenine (KYN), followed by the XRE-reporter gene assays of the agonists. We showed that treatments with 3MC, BaP, and DMBA strongly suppressed mammosphere formation of the stem cells in an AHR-dependent manner, while other agonists showed weaker suppression. In reporter gene assays, the strength or duration of AHR/XRE-mediated gene transcription was found to be dependent on the agonist. Although strong transcriptional activation was observed with 3MC, FICZ, indirubin, I3C, IAA, or KYN after 6 h of treatment, only weak activation was seen with BaP or DMBA. While transcriptional activation was sustained or increased at 24 h with 3MC, BaP, or DMBA, appreciable reduction was observed with the other agonists. In conclusions, the results demonstrated that the suppressive effects of AHR agonists on mammosphere formation do not necessarily correlate with their abilities to induce AHR-mediated gene transcription. Hence, different AHR functions may be differentially induced in an agonist-dependent manner.An attempt to use combination therapy with anti-tumor necrosis factor α (TNFα) antibodies and tacrolimus (TAC) has been tried to induce remission in ulcerative colitis (UC). However, the optimal dose of TAC in combination therapy with anti-TNFα antibodies (TAC + anti-TNFα therapy) remains unclear. We examined the efficacy of various doses of TAC + anti-TNFα therapy in a mouse colitis model. Dextran sulfate sodium induced colitis model mice were divided into an anti-TNFα antibody monotherapy group and the groups that received various doses of TAC + anti-TNFα therapy. The nuclear factor expression of activated T-cells, cytoplasmic 1 (NFATc1) in the nuclei and the mRNA expression of inflammatory cytokines were assessed by immunohistochemistry and RT-PCR, respectively. The serum anti-TNFα antibody concentration was measured with an enzyme-linked immunosorbent assay. The colon length and histological severity were significantly improved in the groups that received any dose of TAC + anti-TNFα therapy. The nuclear expression of NFATc1 was inversely proportional to the administered doses of TAC. The expression levels of inflammatory cytokines tended to decrease in proportion to the dose of TAC. The serum concentration of anti-TNFα antibodies in the high-dose TAC + anti-TNFα therapy was significantly higher than those in the other groups. Low-dose TAC exerted its immunosuppressive effect on T-cells, and additionally, high-dose TAC maintained the serum anti-TNFα antibody concentration. When administered in combination with anti-TNFα antibodies, the dose of TAC should be adjusted according to the disease severity.We previously reported a screening method for caloric restriction mimetics (CRM), a group of plant-derived compounds capable of inducing good health and longevity. In the present study, we explored the possibility of using this method to screen CRM drugs for drug repositioning. The method, T-cell activation-inhibitory assay, is based on inductive logic. Most of CRM such as resveratrol have been reported to suppress T-cell activation and have anti-inflammatory functions. Here, we assessed the activity of 12 antiallergic drugs through T-cell activation-inhibitory assay and selected four that showed the lowest IC50 values-ibudilast (IC50 0.97 µM), azelastine (IC50 7.2 µM), epinastine (IC50 16 µM), and amlexanox (IC50 33 µM)-for further investigation. Because azelastine showed high cytotoxicity, we selected only the remaining three drugs to study their biological functions. We found that all the three drugs suppressed the expression of interleukin (IL)-6, an inflammatory cytokine, in lipopolysaccharide-treated macrophage cells, with ibudilast being the strongest suppressor.

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