Metal-free intramolecular aziridination of alkenes using hypervalent iodine based sulfonyliminoiodanes.

Intramolecular aziridination of alkenyl sulfonyliminoiodanes occurs thermally in the absence of conventional metal catalysts such as Rh(II) and Cu(II). In rigid molecular systems, conversions are near quantitative. The scope of the nonmetal process is related to the conformational flexibility of the alkenyl sulfonyliminoiodane. A mechanism is proposed involving formal 2 + 2 cycloaddition of the RSO(2)N=IPh group to the double bond followed by reductive elimination of PhI to yield the sulfonylaziridine. Green chemistry aspects of the process are highlighted.

Efficacy of chemopreventive agents in mouse mammary gland organ culture (MMOC) model: a comprehensive review.

Currently, breast cancer is considered as one of the leading causes for death in women in the United States. Consumption of natural products has received considerable attention in recent years as a possible approach for cancer prevention in general population. There are numerous cancer preventive agents present in the natural products, which may contribute to their chemopreventive properties. During the past two decades, numerous chemopreventive agents have been isolated and/or synthesized and evaluated for their efficacy in a variety of biological assays. To this end, we have established and utilized mouse mammary gland organ culture model (MMOC) as a bioassay for identifying chemopreventive agents. Mammary glands respond to growth promoting hormones and the physiological differentiation can be reproduced in MMOC in chemically defined medium by altering hormonal milieu. Both estrogen and progesterone dependent (mammary ductal lesions, MDL) and independent (mammary alveolar lesions, MAL) precancerous lesions can be induced in response to a 24 hour exposure to DMBA in MMOC. Suppression of the incidence and multiplicity of these lesions by a possible chemopreventive agent can serve as a tool to evaluate efficacy of potential experimental agents. Using this approach, we have evaluated more than 200 synthetic and natural product-derived chemopreventive agents in this model as a part of the National Cancer Institute-supported projects. Many of these chemopreventive agents expressing significant activity have progressed to the in vivo experimental mammary carcinogenesis studies. Thus, this bioassay has proven to be a valuable tool for screening cancer chemopreventive agents for breast cancer prevention and for understanding molecular mechanism(s) of action of these agents. In this comprehensive review, we provide a complete list of chemopreventive agents evaluated for the efficacy against development of mammary alveolar lesions (MAL) in MMOC along with the recent developments in this area. The structure-activity relationships for many chemopreventive agents evaluated in the MMOC model have been discussed.

Antiviral activity of phytochemicals: a comprehensive review.

Numerous numbers of biologically active agents have been identified for their diverse therapeutic functions. Detailed investigations of phytochemicals for antiviral activities have assumed greater importance in the last few decades. A wide variety of active phytochemicals, including the flavonoids, terpenoids, organosulfur compounds, limonoids, lignans, sulphides, polyphenolics, coumarins, saponins, chlorophyllins, furyl compounds, alkaloids, polyines, thiophenes, proteins and peptides have been found to have therapeutic applications against different genetically and functionally diverse viruses. The antiviral mechanism of these agents may be explained on basis of their antioxidant activities, scavenging capacities, inhibiting DNA, RNA synthesis, inhibition of the viral entry, or inhibiting the viral reproduction etc. Large number candidate substances such as phytochemicals and their synthetic derivatives have been identified by a combination of in vitro and in vivo studies in different biological assays. In this article we have made attempts to extensively review and provide comprehensive description of different phyto-antiviral agents. We have examined the recent developments in the field of plant derived antiviral agents. The major advances in the field of viral interactions in various biological assays have been summarized. In addition sources of origin, major viral studies mechanistic action and phase trials of various phytoantiviral agents have been included in the review.

Comprehensive review of cancer chemopreventive agents evaluated in experimental carcinogenesis models and clinical trials.

Cancer chemoprevention refers to the use of pharmacological agents to inhibit, delay or reverse the multi-step process of carcinogenesis. The last two decades in particular have witnessed explosive growth in this emerging field of cancer chemoprevention. Extensive efforts to evaluate possible application of various chemopreventive agents, in individuals at high risk of neoplastic development have been carried out. Epidemiological studies suggest a protective role of several agents in reducing the risk of cancer. The protective action of all these agents is explained as a combination of various proposed mechanisms involving anti-oxidant, anti-inflammatory, immunomodulatory action, apoptosis induction, molecular association with carcinogen, cell cycle arrest, cell differentiation induction, antimicrobial effect, and anti- angiogenesis etc. Large numbers of candidate substances such as phytochemicals and their synthetic derivatives have been identified by a combination of in vitro and in vivo studies in a wide range of biological assays. However, a comprehensive description of these chemopreventive agents has not been extensively reviewed. In this review we discuss cancer chemopreventive agents in relation to their source, efficacy in cancer chemopreventive action in vivo and epidemiological data. The experimental carcinogenesis studies in different biological models, in addition to the contribution from our laboratory are summarized.

The mechanism of 1,4 alkyl group migration in hypervalent halonium ylides: the stereochemical course.

Rhodium(II)-acetate-catalyzed decomposition of either 1,3-cyclohexanedione phenyliodonium ylide or 5,5-dimethyl-1,3-cyclohexanedione phenyliodonium ylide in the presence of alkyl halides yields the corresponding 3-alkoxy-2-halocyclohex-2-enones via a 1,4 alkyl group migration shown to be concerted and intramolecular. In the case of (S)-alpha-phenethyl chloride, the rearrangement proceeds with essentially 88.6% retention of configuration. Theoretical calculations at the B3LYP/6-31G level reveal an activation energy of 5.4 kcal/mol for the process. A Claisen-like rearrangement occurs in the case where allylic halides, such as dimethylallyl or methallyl chorides, are used. The mechanistic pathway proposed for these processes involves addition of the halogen atom of the alkyl or allyl halide to the rhodium carbenoid from the iodonium ylide to yield a halonium intermediate that undergoes halogen to oxygen group migration. Aryl halides, such as chloro-, bromo-, iodo-, and fluorobenzene, behave differently under the same reaction conditions, yielding the product of electrophilic aromatic substitution, namely, the 2-(4-halophenyl) 1,3-cyclohexanedione.

Organosulfur compounds in cancer chemoprevention.

There has been a renewed interest to the application of natural products derived from cruciferous plants and members of Allium genus in chemoprevention of cancer. The potential chemopreventive properties of these vegetables have been attributed to the presence of high level of organosulfur compounds in these plants. Organosulfur compounds have been shown to exert diverse biological effects such as: (a) induction of carcinogen detoxification, (b) inhibition of tumor cell proliferation, (c) antimicrobial effect, (d) free radical scavenging, (e) inhibition of DNA adduct formation, (f) induction of cell cycle arrest and induction of apoptosis etc. It has been suggested that these compounds act as chemopreventive agents through a combination of above mechanisms. Epidemiological and experimental carcinogenesis provides overwhelming evidence to support the claim that individuals consuming diet rich in organosulfur are less susceptible to different types of cancers. The protective effects of OSCs against carcinogenesis have been shown in stomach, esophagus, mammary glands, breast, skin and lungs of experimental animals. Cumulatively all these studies show a strong correlation between cancer prevention and intake of organosulfur compounds in one form or the other. Since the protective effects of all these phytochemicals are as a result of additives and synergistic combination further studies are warranted for complete understanding of chemopreventive action of organosulfur compounds and define the effective dose that has no toxicity in humans. In this review an attempt has been made to summarize the different aspects of organosulfur compounds with relation to their source, chemopreventive mechanistic action, epidemiologic and experimental carcinogenesis.

Zapotin, a phytochemical present in a Mexican fruit, prevents colon carcinogenesis.

Zapotin (5,6,2',6'-tetramethoxyflavone), found in the tropical fruit zapote blanco (Casimiroa edulis), is consumed in many parts of the world, including Central America and Asia. Previously, we have demonstrated in vitro chemopreventive activity of extracts derived from the seeds of C. edulis. In the present study, we examined the effects of natural and synthetic zapotin in SW480, SW620, and HT-29 colon cancer cell lines and on the generation of aberrant crypt foci (ACF) using mice. Zapotin treatment (IC50=2.74x10(-7 M)) resulted in a marked suppression of cell proliferation in the HT-29 cells. Cell cycle analysis demonstrated a significant accumulation of cells in the G2-M phase, with a concomitant decrease of cells in the G0-G1 phase, after treatment with zapotin (molecular weight=342.35 g/mol; 1 microM for 18, 24, and 48 h). Zapotin treatment enhanced apoptosis in all of the colon cancer cell lines studied. For the study of ACF, 5-wk-old CF-1 mice were given subcutaneous injections of azoxymethane (AOM; 10 mg/kg body weight, BW) weekly for 2 wk, and zapotin (5 or 10 mg/kg BW; 46 or 92 pmol/kg BW) or vehicle was administered intragastrically 7 days/wk. The mean number of ACF for the control group was 14.0+/-2.3, whereas the mean numbers of ACF in the zapotin-treated groups were 6.2+/-1.7 and 4.6+/-1.4 at doses of 5.0 and 10.0 mg/kg BW, respectively. Loss of hexosaminidase, a lysosomal enzyme active in normal colonic crypts but decreased in up to 95% of ACF, was used as a second biomarker for colon carcinogenesis. Zapotin was found to significantly (P<0.01) prevent loss of hexosaminidase in the colon of AOM-treated mice. The present study is the first to report the potent anticancer activity of zapotin and suggests a role for zapotin both as a chemopreventive and a chemotherapeutic agent against colon cancer.

Down-regulation of inhibitor of apoptosis proteins by deguelin selectively induces apoptosis in breast cancer cells.

The identification of differentially regulated apoptotic signals in normal and tumor cells allows the development of cancer cell-selective therapies. Increasing evidence shows that the inhibitor of apoptosis (IAP) proteins survivin and XIAP are highly expressed in tumor cells but are absent or have very low levels of expression in normal adult tissues. We found that inhibiting AKT activity with 10 to 100 nM deguelin, a small molecule derived from natural products, markedly reduced the levels of both survivin and XIAP, inducing apoptosis in human breast cancer cells but not in normal cells. It is noteworthy that we detected an elevated level of cleaved poly(ADP-ribose) polymerase, a signature of caspase activation, without a significant increase in caspase activity in deguelin-treated cancer cells. Our results suggest that severe down-regulation of the IAPs by deguelin releases their inhibitory activity over pre-existing active caspases present in cancer cells, inducing apoptosis without the need for further caspase activation. Because normal cells have very low levels of p-AKT, XIAP, survivin, and pre-existing caspase activity, deguelin had little effect on those cells. In addition, we found that combining deguelin with chemotherapy drugs enhanced drug-induced apoptosis selectively in human tumor cells, which suggests that deguelin has great potential for chemosensitization and could represent a new therapeutic agent for treatment of breast cancer.

exo-Imino to endo-iminocyclitol rearrangement. A general route to five-membered antiviral azasugars.

A facile synthesis is reported for five-membered iminocyclitols which allows for variation in stereochemistry at all the chiral centers, diverse C1- and N-substitution, and the potential for a three-component combinatorial process. The key step is inversion at the C4 stereocenter (L-lyxo sugar --> D-ribono azasugar). The exo-imino to endo-iminocyclitol process was extended to the D-lyxo and the D- and L-hexose series. Some analogues were found to be more potent than N-butyl DNJ and N-nonyl DNJ in antiviral activity.

Cancer chemopreventive activity of sulforamate derivatives.

Chemoprevention can be defined as an intervention in the carcinogenic process by use of natural or synthetic substances. Induction of Phase II enzyme is an important mechanism of chemoprevention. In the present studies we have synthesized several derivatives of (+)(-) 4-methylsulfinyl-1-(S-methyldithiocarbamyl)-butane (sulforamate) and evaluated their effectiveness as monofunctional inducer of the NAD(P)H Quinone oxidoreductase [quinone reductase (QR)] a phase II enzyme in cultured Hepa1c1c7 murine hepatoma cells. The cytotoxicity of some of the derivatives was strongly reduced in comparison to [(-)-1-isothiocyanato-4(R)-(methylsulfinyl)butane] (sulforaphane). However, the induction potential of these compounds was comparable to sulforaphane. On the basis of these results sulforamate derivatives can be regarded as simple, inexpensive and readily available chemopreventive agents.

Synthesis of Abyssinone II and related compounds as potential chemopreventive agents.

A facile and efficient approach to the synthesis of prenylated flavonoids as potential chemopreventive agents has been described. This features the synthesis of prenyl halide, prenylation of p-hydroxybenzaldehyde, formation of prenylated polyhydroxychalcone and cyclization of prenylated polyhydroxychalcone to flavanones (15) and (16), and flavonol (17) starting from isoprene (1). The structures of all three compounds have been characterized by NMR, IR and mass spectroscopy.

Chemopreventive effects of deguelin, a novel Akt inhibitor, on tobacco-induced lung tumorigenesis.

Tobacco carcinogens induce Akt activation and lung carcinogenesis. We previously demonstrated that deguelin, a natural plant product, specifically inhibits the proliferation of premalignant and malignant human bronchial epithelial cells by blocking Akt activation. To evaluate the ability of deguelin to block tobacco carcinogen-induced lung tumorigenesis, we evaluated the in vivo effects of deguelin on Akt activation and lung tumorigenesis in transgenic mice in which Akt expression was induced by tamoxifen and in 4-(methylnitrosoamino)-1-(3-pyridyl)-1-butanone (NNK)/benzo(a)pyrene (BaP)-treated A/J mice. Deguelin suppressed Akt activation in vivo, as measured by immunohistochemistry and immunoblotting, and statistically significantly reduced NNK/BaP-induced lung tumor multiplicity, volume, and load in A/J mice, as monitored by microcomputed tomography image analysis, with no detectable toxicity. These results indicate that deguelin warrants consideration as a chemopreventive agent for early-stage lung carcinogenesis in a clinical lung cancer chemoprevention trial.

Synthesis of 1alpha-hydroxyvitamin D5 using a modified two wavelength photolysis for vitamin D formation.

[reaction: see text] 1Alpha-hydroxyvitamin D5 (1) is a promising chemopreventive agent for breast cancer and is being developed as a drug. We report a synthesis for this vitamin D analogue which uses a photochemical method for the B-ring opening, leading to the conjugated triene system. The precursor 7-dehydrositosteryl acetate (4) obtained through a one-pot, five-step procedure, was completely free of the 4,6-diene isomer that usually forms in the 5,7-diene synthesis. The pre-vitamin isomer (11) was generated using a modified two-wavelength photolysis procedure that increases the yield for this step more than 3-fold compared to classically used photolysis. The 1alpha-hydroxylation step was performed on the 3-triethylsilyl-trans-vitamin D5 (17) obtained via the sulfur dioxide adduct of cis-vitamin D5, in an overall yield of 48%. Photoisomerization and deprotection completed the synthesis.

Organohypervalent iodine: development, applications, and future directions.

The synthetic utility of organohypervalent iodine reagents will be illustrated by their use in the alpha-hydroxydimethylacetal formation reaction from enolizable ketones, alpha-hydroxylation, alpha-tosyloxylation, alpha-alkoxylation and arylation of ketones, carbon-carbon bond formation, and intramolecular cyclopropanation using iodonium ylides. The uses of these reagents in the Hunsdiecker reaction of carboxylic acids and Hofmann rearrangement of carboxamides is presented. Specific transformation in the cubane series are discussed. The syntheses of a wide range of heterocycle structures are also presented. A unifying pathway for virtually all these diverse reactions is offered; the central features being initial attack at the iodonium center, ligand coupling, with reductive elimination of iodobenzene to yield the product.

Synthesis of 1,4-annulated cyclooctatetraenophanes based on a novel cubane building block approach.

A general synthetic approach to strained 1,4-annulated cyclooctatetraene-based cyclophanes is described. A key feature in this approach is exploitation of the cubane core as a masked cyclooctatetraene synthon. Thus, 1,4-disubstituted cubanes 3 and 4 used as precursors to cyclooctatetraenophanes have been prepared in four steps from the readily available 1,4-cubanedicarboxaldehyde (5). The synthesis of 3 was effected by palladium/copper-mediated coupling of 1,4-bis[(Z,Z)-2-iodovinyl]cubane (6) and 1,4-bis[(Z,Z)-but-1-en-3-ynyl]cubane (8). For the synthesis of 4, on the other hand, modified Eglington-Glaser coupling was applied for the macrocyclization step. The general characteristic of Rh(I) to induce [2 + 2] cycloreversion of the cubane core to syn-tricyclo[4.2.0.0(2,5)]octa-3,7-diene followed by thermal rearrangement to cyclooctatetraene was applied as a key structural transformation toward targeted cyclooctatetraenophanes 1 and 2.

alpha-Galactosylceramide and novel synthetic glycolipids directly induce the innate host defense pathway and have direct activity against hepatitis B and C viruses.

alpha-Galactosylceramide is a glycolipid derived from marine sponges that is currently in human clinical trials as an anticancer agent. It has also been shown to be effective in reducing the amount of hepatitis B virus (HBV) DNA detected in mice that produce HBV constitutively from a transgene. It was assumed that all of the antiviral and antitumor activities associated with alpha-galactosylceramide were mediated through the activation of NK T cells. However, we report here an additional unpredicted activity of alpha-galactosylceramide as a direct antiviral agent and inducer of the innate host defense pathway. To exploit this activity, we have developed a new class of smaller, orally available glycolipids that also induce the innate host defense pathway and have direct activity against HBV and hepatitis C virus.

The intramolecular asymmetric Pauson-Khand cyclization as a novel and general stereoselective route to benzindene prostacyclins: synthesis of UT-15 (treprostinil).

A general and novel solution to the synthesis of biologically important stable analogues of prostacyclin PGI(2), namely benzindene prostacyclins, has been achieved via the stereoselective intramolecular Pauson-Khand cyclization (PKC). This work illustrates for the first time the synthetic utility and reliability of the asymmetric PKC route for synthesis and subsequent manufacture of a complex drug substance on a multikilogram scale. The synthetic route surmounts issues of individual step stereoselectivity and scalability. The key step in the synthesis involves efficient stereoselection effected in the PKC of a benzoenyne under the agency of the benzylic OTBDMS group, which serves as a temporary stereodirecting group that is conveniently removed via benzylic hydrogenolysis concomitantly with the catalytic hydrogenation of the enone PKC product. Thus the benzylic chiral center dictates the subsequent stereochemistry of the stereogenic centers at three carbon atoms (C(3a), C(9a), and C(1)).

Imino sugars that are less toxic but more potent as antivirals, in vitro, compared with N-n-nonyl DNJ.

Imino sugar glucosidase inhibitors have selective antiviral activity against certain enveloped, mammalian viruses. Deoxynojirimycins (DNJs) modified by N-alkylation to contain a nine carbon atom side chain (N-n-nonyl-deoxynojirimycin; N-nonyl-DNJ, NN-DNJ) were shown to be, for example, at least 20 times more potent in inhibiting hepatitis B virus (HBV) and bovine viral diarrhoea virus (BVDV) in cell based assays than the non-alkylated DNJ. These data suggested that modification of the alkyl side chain could influence antiviral activity. Previous work has focused on varying side chain length. In this report, the influence of side chain branching and cyclization upon toxicity and antiviral activity was explored. Briefly, using a virus secretion assay for HBV and a single step growth (yield reduction) assay for BVDV, 14 different DNJ-based sugars, possessing various N-alkyl substitutions, were tested for antiviral activity. Of the series, N-methoxy-nonyl-DNJ and N-butyl-cyclohexyl DNJ were determined to have the best selectivity index against BVDV and HBV, with the N-methoxy analogue being the most potent with micromolar antiviral activity. The results of this antiviral survey and the implications for the mechanism of action and ultimate therapeutic potential of the DNJ-based imino sugars is provided and discussed.