Anti-proliferative properties of prenylated flavonoids from hops (Humulus lupulus L.) in human prostate cancer cell lines

Chalcones xanthohumol (X) and desmethylxanthohumol (DMX), present in hops (Humulus lupulus L.), and the corresponding flavanones isoxanthohumol (IX, from X), 8-prenylnaringenin (8-PN, from DMX), and 6-prenylnaringenin (6-PN, from DMX), have been examined in vitro for their anti-proliferative activity on human prostate cancer cells PC-3 and DU145. X proved to be the most active compound in inhibiting the growth of the cell lines with IC₅₀ values of 12.3±1.1 μM for DU145 and 13.2±1.1 μM for PC-3. 6-PN was the second most active growth inhibitor, particularly in PC-3 cells (IC₅₀ of 18.4±1.2 μM). 8-PN, a highly potent phytoestrogen, exhibited pronounced anti-proliferative effects on PC-3 and DU145 (IC₅₀ of 33.5±1.0 and 43.1±1.2 μM, respectively), and IX gave comparable activities (IC₅₀ of 45.2±1.1 μM for PC-3 and 47.4±1.1 μM for DU145). DMX was the least active compound. It was evidenced for the first time that this family of prenylated flavonoids from hops effectively inhibits proliferation of prostate cancer cells in vitro.     

Anti-proliferative lichen compounds with inhibitory activity on 12(S)-HETE production in human platelets

Several lichen compounds, i.e. lobaric acid (1), a β-orcinol depsidone from Stereocaulon alpinum L., (+)-protolichesterinic acid (2), an aliphatic -methylene-γ-lactone from Cetraria islandica Laur. (Parmeliaceae), (+)-usnic acid (3), a dibenzofuran from Cladonia arbuscula (Wallr.) Rabenh. (Cladoniaceae), parietin (4), an anthraquinone from Xanthoria elegans (Link) Th. Fr. (Calaplacaceae) and baeomycesic acid (5), a β-orcinol depside isolated from Thamnolia vermicularis (Sw.) Schaer. var. subuliformis (Ehrh.) Schaer. were tested for inhibitory activity on platelet-type 12(S)-lipoxygenase using a cell-based in vitro system in human platelets. Lobaric acid (1) and (+)-protolichesterinic acid (2) proved to be pronounced inhibitors of platelet-type 12(S)-lipoxygenase, whereas baeomycesic acid (5) showed only weak activity (inhibitory activity at a concentration of 100 μg/ml: 1 93.4±6.62%, 2 98,5±1.19%, 5 14.7±2.76%). Usnic acid (3) and parietin (4) were not active at this concentration. 1 and 2 showed a clear dose–response relationship in the range of 3.33–100 μg/ml. According to the calculated IC₅₀ values the highest inhibitory activity was observed for the depsidone 1 (IC₅₀=28.5 μM) followed by 2 (IC₅₀=77.0 μM). The activity of 1 was comparable to that of the flavone baicalein, which is known as a selective 12(S)-lipoxygenase inhibitor (IC₅₀=24.6 μM).     

In vitro antiplasmodial activity of extract and constituents from Esenbeckia febrifuga, a plant traditionally used to treat malaria in the Brazilian Amazon

Esenbeckia febrifuga (Rutaceae) is a plant traditionally used to treat malaria in the Brazilian Amazon region. Ethanol extract of stems displayed a good antiplasmodial activity against Plasmodium falciparum strains W-2 (IC₅₀ 15.5±0.71 μg/ml) and 3 D7 (IC₅₀ 21.0±1.4 μg/ml). Two coumarins (bergaptene 1 and isopimpinellin 2), five alkaloids (flindersiamine 3, kokusaginine 4, skimmiamine 5, γ-fagarine 6 and 1-hydroxy-3-methoxy-N-methylacridone, 7), besides a limonoid (rutaevine 8), have been isolated for the first time from this species. Antiplasmodial activity of compounds 3, 5–8 has been evaluated in vitro against P. falciparum strains (W-2 and 3D7) and the furoquinolines 5 and 6 were the most potent displaying IC₅₀ values <50 μg/ml; flindersiamine (3) showed a weak activity while alkaloid 7 and rutaevine (8) were inactive (IC₅₀>100 μg/ml).     

Crystallographic and NMR studies of antiinfective tricyclic guanidine alkaloids from the sponge Monanchora unguifera

Three tricyclic guanidine alkaloids, including 1,8a;8b,3a-didehydro-8β-hydroxyptilocaulin (1), 1,8a;8b,3a-didehydro-8-hydroxyptilocaulin (2) and mirabilin B (3), were identified from the marine sponge Monanchora unguifera. 1,8a;8b,3a-Didehydro-8-hydroxyptilocaulin (2) is a new stereoisomer of 1, the structure of which was elucidated by spectroscopic analysis, comparison of its spectral data with those of 1, and confirmed by X-ray analysis. Compounds 1 and 2 co-crystallized in an unusual perfect order and packed around an approximate inversion center. A mixture of 1 and 2 is active against the malaria parasite Plasmodium falciparum with an IC₅₀ value of 3.8 μg/mL while mirabilin B (3) exhibited antifungal activity against Cryptococcus neoformans with an IC₅₀ value of 7.0 μg/mL and antiprotozoal activity against Leishmania donovani with an IC₅₀ value of 17 μg/mL.     

Modification at the C9 position of the marine natural product isoaaptamine and the impact on HIV-1, mycobacterial, and tumor cell activity

As part of an investigation to generate optimized drug leads from marine natural pharmacophores for the treatment of neoplastic and infectious diseases, a series of novel isoaaptamine analogs were prepared by coupling acyl halides to the C9 position of isoaaptamine (2) isolated from the Aaptos sponge. This library of new semisynthetic products was evaluated for biological activity against HIV-1, Mtb, AIDS-OI, tropical parasitic diseases, and cancer. Compound 4 showed potent activity against HIV-1 (EC₅₀ 0.47 μg/mL), compound 19 proved to possess remarkable activity against Mycobacterium intracellulare with an IC₅₀ and MIC value of 0.15 and 0.31 μg/mL, while compounds 4 and 17 possessed anti-leishmanial activity with IC₅₀ values of 0.1 and 0.4 μg/mL, respectively. Compounds 16 and 17 showed antimalarial activity with EC₅₀ values of 230 and 240 ng/mL, respectively, and compound 14 exhibited an EC₅₀ of 0.05 μM against the Leukemia cell line K-562.     

Inhibition of protein phosphatases-1 and -2A with acanthifolicin: Comparison with diarrhetic shellfish toxins and identification of a region on okadaic acid important for phosphatase inhibition

Acanthifolicin (9,10-epithio-okadaic acid from Pandoras acanthifolium) inhibited protein phosphatase-1 (PP1) similarly to okadaic acid (IC₅₀ = 20 nM and 19 nM, respectively) but was slightly less active against protein phosphatase-2A (PP2A) (IC₅₀ 1 nM and 0.2 nM, respectively). Methyl esterification of acanthifolicin sharply reduced its activity. PP2A was inhibited with an IC₅₀ = 5.0 μM, whilst PP1 was inhibited < 10% at 250 μM toxin. Okadaic acid methyl ester was similarly inactive whereas dinophysistoxin-1 (35-methyl okadaic acid) inhibited PP1/2A almost as potently as okadaic acid. Pure acanthifolicin/okadaic acid methyl ester may be useful as specific inhibitors of PP2A at 1–10 μM concentrations in vitro and perhaps in vivo. The data also indicate that a region on these toxins important for PP1/2A inhibition comprises the single carboxyl group.     

Purification and partial characterization of manganese peroxidase from immobilized Phanerochaete chrysosporium

Solid-state culture of the white-rot fungus Phanerochaete chrysosporium BKMF-1767 (ATCC 24725) has been carried out, using an inert support, polystyrene foam. Suitable medium and culture conditions have been chosen to favor the secretion of manganese peroxidase (MnP). The enzyme was isolated and purified from immobilized P. chrysosporium and partially characterized. Partial protein precipitation in crude enzyme was affected using ammonium sulphate, polyethylene glycol, methanol, and ethanol methods. Fractionation of MnP was performed by DEAE-Sepharose ion exchange chromatography followed by Ultragel AcA 54 gel filtration chromatography. This purification attained 23.08% activity yield with a purification factor of 5.8. According to data on gel filtration chromatography and sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE), the molecular weight of the enzyme was 45 000±1000 Da. The optimum pH and temperature of purified MnP were 4.5 and 30 °C, respectively. This enzyme was stable in the pH range 4.5–6.0, at 25 °C and also up to 35 °C at pH 4.5 for 1 h incubation period. MnP activity was inhibited by 2 mM NaN₃, ascorbic acid, β-mercaptoethanol and dithreitol. The K_m values of MnP for hydrogen peroxide and 2.6-dimetoxyphenol were 71.4 and 28.57 μM at pH 4.5, respectively. The effects of possible inhibitors and activators of enzyme activity were investigated.     

Isolation and characterization of a novel thermostable non-specific lipid transfer protein-like antimicrobial protein from motherwort (Leonurus japonicus Houtt) seeds

In screening for potent antimicrobial proteins from plant seeds, a novel heat-stable antimicrobial protein, designated LJAMP2, was purified from seeds of the motherwort (Leonurus japonicus Houtt), a medicine herb, with a procedure involving cation exchange chromatography on a CM FF column, and reverse phase HPLCs on C8 column and C18 column. LJAMP2 exhibited a molecular mass of 6.2 kDa determined. Automated Edman degradation determined the partial N-terminal sequence of LJAMP2 to be NH2-AIGCNTVASKMAPCLPYVTGKGPLGGCCGGVKGLIDAARTTPDRQAVCNCLKTLAKSYSG, which displays homology with plant non-specific lipid transfer proteins (nsLTPs). In vitro bioassays showed that LJAMP2 inhibits the growth of a variety of microbes, including filamentous fungi, bacteria and yeast. The growth of three phytopathogenic fungi, Alternaria brassicae, Botrytis maydis, and Rhizoctonia cerealis, are inhibited at 7.5 μM of LJAMP2, whereas Bacillus subtilis is about 15 μM. The IC₅₀ of LJAMP2 for Aspergillus niger, B. maydis, Fusarium oxysporum, Penicillium digitatum and Saccharomyces cerevisiae are 5.5, 6.1, 9.3, 40.0, and 76.0 μM, respectively.     

Characterization of growth hormone-releasing hormone (GHRH) binding to cloned porcine GHRH receptor

To study structure-activity relationships of growth hormone-releasing hormone (GHRH), a competitive binding assay was developed using cloned porcine adenopituitary GHRH receptors expressed in human kidney 293 cells. Specific binding of [His¹,¹²⁵I-Tyr¹⁰,Nle²⁷]hGHRH(1–32)-NH₂ increased linearly with protein concentration (10–45 μg protein/tube). Binding reached equilibrium after 90 min at 30°C and remained constant for at least 240 min. Binding was reversible to one class of high-affinity sites (K_d = 1.04 ± 0.19 nM, B_max = 3.9 ± 0.53 pmol/mg protein). Binding was selective with a rank order of affinity (IC₅₀) for porcine GHRH (2.8 ± 0.51 nM), rat GHRH (3.1 ± 0.69 nM), [N-Ac-Tyr¹, -Arg²]hGHRH(3–29)-NH₂ (3.9 ± 0.58 nM), and [ -Thr⁷]GHRH(1–29)-NH₂ (189.7 ± 14.3 nM), consistent with their binding to a GHRH receptor. Nonhydrolyzable guanine nucleotides inhibited binding. These data describe a selective and reliable method for a competitive GHRH binding assay that for the first time utilizes rapid filtration to terminate the binding assay.     

Synthesis, spectral studies and in vitro assessment for antiamoebic activity of new cyclooctadiene ruthenium(II) complexes with 5-nitrothiophene-2-carboxaldehyde thiosemicarbazones

We report here the synthesis, characterization and in vitro antiamoebic activity of 5-nitrothiophene-2-carboxaldehyde thiosemicarbazones (TSC), 1–5, and their bidentate complexes [Ru(η⁴-C₈H₁₂)(TSC)Cl₂] 1a–5a. The biological studies of these compounds were investigated against HK-9 strain of Entamoeba histolytica and the concentration causing 50% cell growth inhibition (IC₅₀) was calculated in the micromolar range. The ligands exhibited antiamoebic activity in the range (2.05–5.29 μM). Screening results indicated that the potencies of the compounds increased by the incorporation of ruthenium(II) in the thiosemicarbazones. The complexes 1a–5a showed antiamoebic activity with an IC₅₀ of 0.61–1.43 μM and were better inhibitors of growth of E. histolytica, based on IC₅₀ values. The most promising among them is Ru(II) complex 2a having 1,2,3,4-tetrahydroquinoline as N⁴ substitution.     

Anti-allergic substances from the rhizomes of Dioscorea membranacea

Extracts of five species of Thai medicinal plants, locally known as Hua-Khao-Yen, were screened for anti-allergic activities using RBL-2H3 cells. Of the five species studied, the ethanolic extract of Dioscorea membranacea exhibited potent inhibitory activity against β-hexosaminidase release as a marker of degranulation in RBL-2H3 cells, with an IC₅₀ value of 37.5 μg/mL. Eight compounds were isolated from this crude ethanolic extract, [two naphthofuranoxepins (1, 2), one phenanthraquinone (3), three steroids (4–6), and two steroidal saponins (7, 8)], and tested for their anti-allergic activities. The results showed that dioscorealide B (2) possessed the highest activity with an IC₅₀ value of 5.7 μM, followed by dioscoreanone (3, IC₅₀ = 7.7 μM), dioscorealide A (1, IC₅₀ = 27.9 μM), and diosgenin (9, IC₅₀ = 29.9 μM). Structure–activity relationship studies of naphthofuranoxepins on anti-allergic activity revealed that the hydroxylation at position 8 conferred higher activity than methoxylation. For diosgenin derivatives, the aglycone was found to possess higher activity than the diglucosylated molecule; whereas substitution with rhamnoglucosides apparently results in loss of activity. Furthermore, effects of dioscorealide A, dioscorealide B, and dioscoreanone on antigen-induced release of TNF- and IL-4 in the late phase reaction were also examined.     

Hemoglobin and iron-evoked oxidative stress in the brain: protection by bile pigments, manganese and S-nitrosoglutathione

In the present in vitro and in vivo study we investigated the pro-oxidant effects of hemoglobin, as well as the antioxidant effects of its metabolites, in the brain. Incubation of rat brain homogenates with hemoglobin (0-10 μM) but not hemin induced lipid peroxidation up to 24 h (EC₅₀ = 1.2 μM). Hemoglobin's effects were similar to ferrous ion (EC₅₀ = 1.7 μM) and were blocked by the chelating agent deferoxamine (IC₅₀ = 0.5 μM) and a nitric oxide-releasing compound S-nitrosoglutathione (IC₅₀ = 40 μM). However, metabolites of hemoglobin — biliverdin and bilirubin — inhibited brain lipid peroxidation induced by cell disruption and hemoglobin (biliverdin IC₅₀ = 12-30 and bilirubin IC₅₀ = 75-170 μM). Biliverdin's antioxidative effects in spontaneous and iron-evoked lipid peroxidation were further augmented by maganese (2 μM) since manganese is an antioxidative transition metal and conjugates with bile pigments. Intrastriatal infusion of hemoglobin (0-24 nmol) produced slight, but significant 20-22% decreases in striatal dopamine levels. Whereas, intrastriatal infusion of ferrous citrate (0-24 nmol) dose-dependently induced a greater 66% depletion of striatal dopamine which was preceded by an acute increase of lipid peroxidation. In conclusion, contrary to the in vitro results hemoglobin is far less neurotoxic than ferrous ions in the brain. It is speculated that hemoglobin may be partially detoxified by heme oxygenase and biliverdin reductase to its antioxidative metabolites in the brain. However, in head trauma and stroke, massive bleeding could significantly produce iron-mediated oxidative stress and neurodegeneration which could be minimized by endogenous antioxidants such as biliverdin, bilirubin, manganese and S-nitrosoglutathione.     

Natural products isolated from Mexican medicinal plants: Novel inhibitors of sulfotransferases, SULT1A1 and SULT2A1

Calophyllum brasiliense, Lonchocarpus oaxacensis, and Lonchocarpus guatemalensis are used in Latin American folk medicine. Four natural xanthones, an acetylated derivative, and two coumarins were obtained from C. brasiliense. Two flavanones were extracted from L. oaxacensis and one chalcone from L. guatemalensis. These compounds were tested as substrates and inhibitors for two recombinant sulfotransferases (SULTs) involved in the metabolism of many endogenous compounds and foreign chemicals. Assays were performed using recombinant phenol-sulfotransferase (SULT1A1) and hydroxysteroidsulfotransferase (SULT2A1). Three of the five xanthones, one of the flavonoids and the coumarins tested were substrates for SULT1A1. None of the xanthones or the flavonoids were sulfonated by SULT2A1, whereas the coumarin mammea A/BA was a substrate for this enzyme. The natural xanthones reversibly inhibited SULT1A1 with IC₅₀ values ranging from 1.6 to 7 μM whereas much higher amounts of these compounds were required to inhibit SULT2A1 (IC₅₀ values of 26-204 μM). The flavonoids inhibited SULT1A1 with IC₅₀ values ranging from 9.5 to 101 μM, which compared with amounts needed to inhibit SULT2A1 (IC₅₀ values of 11 to 101 μM). Both coumarins inhibited SULT1A1 with IC₅₀ values of 47 and 185 μM, and SULT2A1 with IC₅₀ values of 16 and 31 μM. The acetylated xanthone did not inhibit either SULT1A1 or SULT2A1 activity. Rotenone from a commercial source had potency comparable to that of the flavonoids isolated from Lonchocarpus for inhibiting both SULTs. The potency of this inhibition depends on the position and number of hydroxyls. The results indicate that SULT1A1, but not SULT2A1, is highly sensitive to inhibition by xanthones. Conversely, SULT2A1 is 3-6 times more sensitive to coumarins than SULT1A1. The flavonoids are non-specific inhibitors of the two SULTs.

Collectively, the results suggest that these types of natural products have the potential for important pharmacological and toxicological interactions at the level of phase-II metabolism via sulfotransferases.     

Highly selective inhibition of estrogen biosynthesis by CGS 20267, a new non-steroidal aromatase inhibitor

CGS 20267 is a new non-steroidal compound which potently inhibits aromatase in vitro (IC₅₀ of 11.5 nM) and in vivo (ED₅₀ of 1–3 μg/kg p.o.). CGS 20267 maximally inhibits estradiol production in vitro in LH-stimulated hamster ovarian tissue at 0.1 μM with an IC₅₀ of 0.02 μM and does not significantly affect progesterone production up to 350 μM. In ACTH-stimulated rat adrenal tissue in vitro, aldosterone production was inhibited with an IC₅₀ of 210 μM (10,000 times higher than the IC₅₀ for estradiol production); no significant effect on corticosterone production was seen at 350 μM. In vivo, in ACTH-treated rats, CGS 20267 does not affect plasma levels of corticosterone or aldosterone at a dose of 4 mg/kg p.o. (1000 times higher than the ED₅₀ for aromatase inhibition in vivo). In adult female rats, a 14-day treatment with 1 mg/kg p.o. daily, completely interrupts ovarian cyclicity and suppresses uterine weight to that seen 14 days after ovariectomy. In adult female rats bearing estrogen-dependent DMBA-induced mammary tumors, 0.1 mg/kg p.o. given daily for 42 days caused almost complete regression of tumors present at the start of treatment. Thus compared to each other, CGS 16949A and CGS 20267 are both highly potent in inhibiting estrogen biosynthesis in vitro and in vivo. The striking difference between them is that unlike CGS 16949A, CGS 20267 does not affect adrenal steroidogenesis in vitro or in vivo, at concentrations and doses several orders of magnitude higher than those required to inhibit estrogen biosynthesis.     

Purification, characterization and synergistic activity of β-1,3-glucanase and antibiotic extract from an antagonistic Bacillus subtilis NSRS 89-24 against rice blast and sheath blight

Antifungal compounds in the culture filtrate from Bacillus subtilis NSRS 89-24 that inhibited the growth of Pyricularia grisea and Rhizoctonia solani were mainly heat stable as the filter sterilized culture filtrate showed higher activity than an autoclaved one. The heat stable and labile components were due to an antibiotic and a β-1,3-glucanase, respectively. This β-1,3-glucanase was purified and characterized. Glucanase activity in the culture medium of B. subtilis NSRS 89-24 was inducible in the presence of 0.3% chitin, reaching a maximum on day 5. After purification, activity was associated with a protein of molecular mass of approximately 95.5 kDa by both gel filtration and native PAGE. Two major bands of M_r 64.6 and 32.4 kDa were revealed by SDS–PAGE. The enzyme had a K_m of 0.9 mg/ml, and V_max of 0.11 U, the optimal pH was 6.5–9.5 and was stable up to 50 °C. Both the pure enzyme and the antibiotic extract from the culture filtrate of the B. subtilis separately inhibited R. solani and P. grisea with MIC values of 12.5 and 6.25 mU/ml and 3.13 and 1.56 μg/ml, respectively. The glucanase enzyme in combination with the antibiotic showed a strong synergistic inhibitory effect on the hyphal growth of both fungi.     

Synthesis and cell growth inhibitory properties of substituted (E)-1-phenylbut-1-en-3-ones

A series of (E)-1-phenylbut-1-en-3-ones, based on the naturally occurring (E)-1-(4′-hydroxyphenyl)but-1-en-3-one [IC₅₀ (K562) 60 μM], was synthesised and screened for cytotoxic activity against the K562 human leukaemia cell line. (E)-1-(Pentafluorophenyl)but-1-en-3-one [IC₅₀ (K562) 1.8 μM] was found to be over 30-fold more active than 1.     

Therapy of Cushing''s syndrome with steroid biosynthesis inhibitors

Several substances with different inhibitory effects on adrenal steroid biosynthesis were investigated in patients with Cushing's syndrome. It has been shown that trilostane, a 3β-hydroxysteroid-dehydrogenase inhibitor, is not potent enough to block cortisol biosynthesis in patients with hypercortisolism. Aminoglutethimide inhibits side chain cleavage of cortisol synthesis, but it has been demonstrated that the blocking effect on cortisol secretion is not strong enough to normalize urinary cortisol excretion in patients with Cushing's disease. For metyrapone, an inhibitor of adrenal 11β-hydroxylase, promising results were reported for the treatment of Cushing's syndrome. However, the drug has several side effects and depending on the definition of the desired reduction of cortisol secretion a true remission was only found in a minority of patients. The antifungal drug ketoconazole in vitro predominantly blocks 17,20-desmolase (IC₅₀ 1 μM) and to a lesser extent 17-hydroxylase (IC₅₀ 10 μM) and 11β-hydroxylase (IC₅₀ 15–40 μM). Therefore, ketoconazole in vivo most potently suppresses androgen secretion and only to a lesser extent cortisol biosynthesis. Several therapeutic trials with ketoconazole treatment in patients with pituitary Cushing's disease showed various remission rates between 30 and 90%. In contrast, in almost all patients with benign, primary adrenal Cushing's syndrome cortisol levels were normalized. In patients with ectopic ACTH syndrome ketoconazole was effective in about 50% of all reported cases, while cortisol hypersecretion due to adrenocortical carcinoma was only rarely inhibited by ketoconazole. The main side effect of ketoconazole treatment was liver toxicity which occurred in 12% of all treated patients. In contrast to ketoconazole, the narcotic drug etomidate shows a strong inhibitory effect on 11β-hydroxylase (IC₅₀ 0.03–0.15 μM) but only a weak inhibition of 17,20 desmolase (IC₅₀ 380 μM). This correlates with in vivo studies where even low, non-hypnotic doses of etomidate induced a pronounced fall in serum cortisol levels in normals and in patients with Cushing's syndrome. However, its clinical use is limited by its mandatory intravenous application and its sedative effects. In conclusion, ketoconazole remains the only available steroid-inhibitory drug for a therapeutic trial in patients with Cushing's syndrome who cannot be treated definitively by surgery.