Toshiro Noshita

Novel effects of glycyrrhetinic acid on the central nervous system tumorigenic progenitor cells: induction of actin disruption and tumor cell-selective toxicity.

Licorice extracts are used worldwide in foods and medicines, and glycyrrhetinic acid (GA) is a licorice component that has been reported to induce various important biological activities. In the present study, we show that GA induces actin disruption and has tumor cell-selective toxic properties, and that its selectivity is superior to those of all the clinically available antitumor agents tested. The cytotoxic activity of GA and the tested antitumor agents showed better correlation with the partition coefficient (log P) values rather than the polar surface area (PSA) values. For selective toxicity against tumor cells, GA was most effective at 10 microM that was the same concentration as the previously reported maximum plasma GA level reached in humans ingesting licorice. These results suggest that GA could be utilized as a promising chemopreventive and therapeutic antitumor agent. The underlying mechanisms involved in the selective toxicity to tumor cells by GA are also preliminarily discussed.

Anti-nitric oxide production activity of isothiocyanates correlates with their polar surface area rather than their lipophilicity

There is increasing demand for novel anti-inflammatory drugs with different mechanisms of action. We synthesized a series of isothiocyanates 2b-h based on 6-(methylsulfinyl)hexyl isothiocyanate (6-MITC) found in the pungent spice Wasabia japonica. Inhibitory activities against in-vitro growth of tumor cells and production of nitric oxide (NO) using the mouse macrophage-like cell line J774.1 were noted. All isothiocyanates were optimized by Hartree-Fock/3-21G model, and the logP values and the polar surface area (PSA) values were calculated. Substitution of the methylsulfinyl group (CH(3)S(O)-R) in 6-MITC with a formyl (CHO-R), a methylsulfanyl (CH(2)S-R) or a methyl (CH(3)-R) group reduced the activities of the parent isothiocyanate. Substitution with a formyl group resulted in lower lipophilicity (logP value) whereas substitution with a methylsulfanyl or methyl group resulted in a lower PSA value. The inhibitory activity of isothiocyanates showed better correlation with their PSA values rather than their partition coefficient (logP) values. Isothiocyanates with higher PSA values and some degree of logP value may have potent biological activity.

Selective cytotoxicity of glycyrrhetinic acid against tumorigenic r/m HM-SFME-1 cells: potential involvement of H-Ras downregulation.

With the intensive need for the development of more effective and safer agents for chemoprevention and therapy of human cancer, natural products from plants have been expected to play significant roles in creating new and better chemopreventive and therapeutic agents. Selectivity is also an important issue in cancer prevention and therapy. In the present study, normal serum-free mouse embryo (SFME) and tumorigenic human c-Ha-ras and mouse c-myc cotransfected highly metastatic serum-free mouse embryo-1 (r/m HM-SFME-1) cells were treated with various concentrations of clinically available antitumor agents or glycyrrhetinic acid (GA), and the antiproliferative effects of these compounds were determined by the MTT assay. Western blotting analysis, RT-PCR, fluorescence staining and confocal laser scanning microscopic observation were adopted to analyze H-Ras regulation. GA exhibited the tumor cell-selective toxicity through H-Ras downregulation, and its selectivity was superior to those of all the clinically available antitumor agents examined. For the selective toxicity of tumor cells, GA was most effective at 10 microM. Interestingly, this concentration was the same as the previously reported maximum plasma GA level reached in humans ingesting licorice. These results in the present study suggest that GA with its cytotoxic effects could be utilized as a promising chemopreventive and therapeutic antitumor agent.

Homology modeling and structural analysis of human P-glycoprotein.

Homology modeling and structural analysis of human P-glycoprotein (hP-gp) were performed with a software package the Molecular Operating Environment (MOE). A mouse P-gp (mP-gp; PDB code: 3G5U) was selected as a template for the 3D structure modeling of hP-gp. The modeled hP-gp showed significant 3D similarities at the drug biding site (DBS) to the mP-gp structure. The contact energy profiles of the hP-gp model were in good agreement with those of the mP-gp structure. Ramachandran plots revealed that only 3.5% of the amino acid residues were in the disfavored region for hP-gp. Further, docking simulations between 6-(methylsulfinyl)hexyl isothiocyanate (6-MITC) and the P-gp models revealed the similarity of the ligand-receptor bound location between the hP-gp and mP-gp models. These results indicate that the hP-gp model was successfully modeled and analyzed. To the best of our knowledge, this is the first report of a hP-gp model with a naturally occurring isothiocyanate, and our data verify that the model can be utilized for application to target hP-gp for the development of antitumor drugs. Abbreviations ABC - ATP-binding cassette, ASE-Dock - alpha sphere and excluded volume-based ligand-protein docking, DBS - drug biding site, MDR - multidrug resistance, MOE - Molecular Operating Environment, ITC - isothiocyanate, P-gp - P-glycoprotein.

Structural insight into the ligand-receptor interaction between glycyrrhetinic acid (GA) and the high-mobility group protein B1 (HMGB1)-DNA complex

Structural analysis of the high-mobility group protein B1 (HMGB1)-DNA complex and a docking simulation between glycyrrhetinic acid (GA) and the HMGB1-DNA complex were performed with a software package the Molecular Operating Environment (MOE). An HMGB1-DNA (PDB code: 2GZK) was selected for the 3D structure modeling of the HMGB1-DNA complex. The Site Finder module of the MOE identified 16 possible ligand-binding sites in the modeled HMGB1-DNA complex. The docking simulation revealed that GA possibly inhibits functions of HMGB1 interfering with Lys90, Arg91, Ser101, Tyr149, C230 and C231 in the HMGB1-DNA complex. To the best of our knowledge, this is the first report of an HMGB1-DNA complex with GA, and our data verify that the GA-HMGB1-DNA model can be utilized for application to target HMGB1 for the development of antitumor drugs. Abbreviations ASE-Dock - alpha sphere and excluded volume-based ligand-protein docking, CNS - central nervous system, GA - glycyrrhetinic acid, GL - glycyrrhizin, HMGB1 - high-mobility group protein B1, LBS - ligand-biding site, MOE - Molecular Operating Environment, SRY - sex-determining region on the Y chromosome.

New Cytotoxic Phenolic Derivatives from Matured Fruits of Magnolia denudata

Magnolia species are widely cultivated in Japan as garden plants, and have been found to contain various compounds, including alkaloids, terpenoids, lignans, and neolignans. The constituents of the mature fruits of M. denudata were investigated, and two new phenolic derivatives, named denudalide and denudaquinol, were isolated and characterized, together with a known neolignan compound (denudatin A). Denudalide and denudaquinol showed cytotoxicity against the SFME and r/mHM-SFME-1 cell lines.

Ligand-receptor Interaction between Triterpenoids and the 11β-Hydroxysteroid dehydrogenase type 2 (11βHSD2) Enzyme Predicts Their Toxic Effects against Tumorigenic r/m HM-SFME-1 Cells

The present study deals with in silico prediction and in vitro evaluation of the selective cytotoxic effects of triterpenoids on tumorigenic human c-Ha-ras and mouse c-myc cotransfected highly metastatic serum-free mouse embryo-1 (r/m HM-SFME-1) cells. Ligand fitting of five different triterpenoids to 11β-hydroxysteroid dehydrogenase type 2 (11βHSD2) was analyzed with a molecular modeling method, and glycyrrhetinic acid (GA) was the best-fitted triterpenoid to the ligand binding site in 11βHSD2. Analysis of antiproliferative effects revealed that GA, oleanolic acid, and ursolic acid had selective toxicity against the tumor cells and that GA was the most potent triterpenoid in its selectivity. The toxic activity of the tested triterpenoids against the tumor cells showed good correlations with the partition coefficient (logP) and polar surface area values. Time-lapse microscopy, fluorescence staining, and confocal laser scanning microscopic observation revealed that GA induced morphologic changes typical of apoptosis such as cell shrinkage and blebbing and also disrupted the cytoskeletal proteins. Furthermore, GA exhibited a strong inhibitory effect on 11βHSD2 activity in the tumor cells. Our current results suggest that analysis of the ligand-receptor interaction between triterpenoids and 11βHSD2 can be utilized to predict their antitumor effects and that GA can be used as a possible chemopreventive and therapeutic antitumor agent. To the best of our knowledge, this is the first report on in silico prediction of the toxic effects of triterpenoids on tumor cells by 11βHSD2 inhibition.

Molecular docking and structural analysis of cofactor-protein interaction between NAD+ and 11β-hydroxysteroid dehydrogenase type 2

Molecular docking and structural analysis of the cofactor-protein interaction between NAD+ and human (h) or mouse (m) 11β-hydroxysteroid dehydrogenase type 2 (11βHSD2) were performed with the molecular operating environment (MOE). 11βHSD1 (PDB code: 3HFG) was selected as a template for the 3D structure modeling of 11βHSD2. The MOE docking (MOE-dock) and the alpha sphere and excluded volume-based ligand-protein docking (ASE-dock) showed that both NAD+-h11βHSD2 and NAD+-m11βHSD2 models have a similar binding orientation to the template cofactor-protein model. Our present study also revealed that Asp91, Phe94, Tyr232 and Thr267 could be of importance in the interaction between NAD+ and 11βHSD2. NADP+ was incapable of entering into the cofactor-binding site of the 11βHSD2 models. The present study proposes the latest models for 11βHSD2 and its cofactor NAD+, and to the best of our knowledge, this is the first report of a m11βHSD2 model with NAD+.

Machilin G and Four Neolignans from Young Fruits of Magnolia denudata Show Various Degrees of Inhibitory Activity on Nitric Oxide (NO) Production

Denudatin A and B, denudadione B, fargesone A and machilin G were isolated from Magnolia denudata. These compounds showed inhibitory effects on nitric oxide (NO) production in the lipopolysaccharide plus interferon-γ activated-murine macrophage cell line, J774.1. Some but not all of the inhibition of NO production by machilin G, and denudatin A and B was apparently through the decreased expression of the inducible NO synthase (iNOS) gene.

Isolation of ethyl caffeate from the petals of Prunus yedoensis

Ethyl caffeate was isolated from the petals of Prunus yedoensis (Rosaceae). This is the first example of its isolation from Prunus plants.