Caffeic acid phenethyl ester analogues as selective inhibitors of 12-lipoxygenase product biosynthesis in human platelets.

The inflammatory response is an essential process for the host defence against pathogens. Lipid mediators are important in coordinating the pro-inflammatory and pro-resolution phases of the inflammatory process. However, unregulated production of these mediators has been associated with chronic inflammatory diseases such as arthritis, asthma, cardiovascular diseases, and several types of cancer. Therefore, it is not surprising that enzymes implicated in the production of these lipid mediators have been targeted for potential therapeutic approaches. Amongst these inflammatory molecules, the 12-hydroxyeicosatetraenoic acid (12(S)-HETE) is abundantly produced in several diseases and is primarily biosynthesized via the platelet's 12-lipoxygenase (12-LO) pathway. To this day, very few compounds selectively inhibit the 12-LO pathway, and most importantly, none are currently used in the clinical settings. In this study, we investigated a series of polyphenol analogues of natural polyphenols that inhibit the 12-LO pathway in human platelets without affecting other normal functions of the cell. Using an ex vivo approach, we found one compound that selectively inhibited the 12-LO pathway, with IC50 values as low as 0.11 µM, with minimal inhibition of other lipoxygenase or cyclooxygenase pathways. More importantly, our data show that none of the compounds tested induced significant off-target effects on either the platelet's activation or its viability. In the continuous search for specific and better inhibitors targeting the regulation of inflammation, we characterized two novel inhibitors of the 12-LO pathway that could be promising for subsequent in vivo studies.

Total Synthesis of Ginkgolide C and Formal Syntheses of Ginkgolides A and B.

Ginkgolides are diterpenes isolated from Ginkgo biloba that exhibit strong anti-inflammatory and neuroprotective properties. The highly complex molecular architecture of ginkgolides, combined with their remarkable biological profile, provides a unique platform for the development of new strategies and methods. Herein, we reported the first total synthesis of ginkgolide C and the formal syntheses of ginkgolides A and B. Our synthesis is based on a functional group strategy guided by the compact structure of ginkgolide, where a series of diastereoselective carbon-carbon bond formations and oxidations are carefully orchestrated.

Sinapic acid phenethyl ester as a potent selective 5-lipoxygenase inhibitor: Synthesis and structure-activity relationship.

Given the hepatotoxicity and an unfavorable pharmacokinetic profile of zileuton (Zyflo® ), currently the only approved and clinically used 5-Lipoxygenase (5-LO) inhibitor, the search for potent and safe 5-LO inhibitors is highly demanded. The action of several phenolic acid phenethyl esters as potential 5-Lipoxygenase (5-LO) inhibitors has been investigated. For this purpose, a series of 14 phenethyl esters was synthesized and their impact on 5-LO inhibition was evaluated. The effects of position and number of hydroxyl and methoxy groups on the phenolic acid were investigated. The shortening of the linker between the carbonyl and the catechol moiety as well as the presence of the α,ß-unsaturated carbonyl group was also explored. The sinapic acid phenethyl ester (10), which can be named SAPE (10) by analogy to caffeic acid phenethyl ester (CAPE), inhibited 5-LO in a concentration-dependent manner and outperformed both zileuton (1) and CAPE (2). With an IC50 of 0.3 µm, SAPE (10) was threefold more potent than CAPE (2) and 10-fold more potent than zileuton (1), the only 5-LO inhibitor approved for clinical use. Unlike CAPE (2), SAPE (10) had no effect on 12-lipoxygenase (12-LO) and less effect on cyclooxygenase 1 (COX-1) which makes it a more selective 5-LO inhibitor.

Structure-activity relationship of caffeic acid phenethyl ester analogs as new 5-lipoxygenase inhibitors.

Leukotrienes (LTs) are a class of lipid mediators implicated in numerous inflammatory disorders. Caffeic acid phenethyl ester (CAPE) possesses potent anti-LTs activity through the inhibition of 5-lipoxygenase (5-LO), the key enzyme in the biosynthesis of LTs. In this study, we describe the design and synthesis of CAPE analogs as radical scavengers and 5-LO inhibitors. Caffeic esters bearing propargyl and allyl linkers between the caffeoyl and aryl moieties (4a-i and 5a-i, respectively) were synthesized by Sonogashira and Heck cross-coupling reactions to probe the effects of flexibility and aryl substitution on 5-LO inhibition. Caffeoyl alcohol and ethers (6, 7a-b) as well as caffeoyl aldehyde and ketones (8a-e) were synthesized to elucidate the importance of the ester linkage for inhibitory activity. All tested compounds proved to be good radical scavengers (IC50 of 10-30 µm). After preliminary anti-LTs activity screening in HEK293 cell models, 5-LO inhibition potential of selected compounds was determined in human polymorphonuclear leukocytes (PMNL). Most screened compounds outperformed CAPE 3 in concentration-dependent assays on PMNL, with ester dimers 4i and 5i along with caffeoyl ethers 7a-b being roughly eight-, seven-, and 16-fold more potent than Zileuton, with IC50 values of 0.36, 0.43, and 0.18 µm, respectively.

Synthesis of Highly Functionalized Triarylbismuthines by Functional Group Manipulation and Use in Palladium- and Copper-Catalyzed Arylation Reactions.

Organobismuthines are an attractive class of organometallic reagents that can be accessed from inexpensive and nontoxic bismuth salts. Triarylbismuthines are particularly interesting due to their air and moisture stability and high functional group tolerance. We report herein a detailed study on the preparation of highly functionalized triarylbismuth reagents by triple functional group manipulation and their use in palladium- and copper-catalyzed C-, N-, and O-arylation reactions.

Synthesis and biological activity of arylspiroborate salts derived from caffeic Acid phenethyl ester.

Two novel boron compounds containing caffeic acid phenethyl ester (CAPE) derivatives have been prepared and characterized fully. These new compounds and CAPE have been investigated for potential antioxidant and antimicrobial properties and their ability to inhibit 5-lipoxygenase and whether chelation to boron improves their biological activity. Sodium salt 4 was generally more active than ammonium salt 5 in the biological assays and surpassed the radical scavenging ability of CAPE. Compounds 4 and 5 were more active than CAPE and Zileuton in human polymorphonuclear leukocytes. These results clearly show the effectiveness of the synthesized salts as transporter of CAPE.

Copper-catalyzed O-arylation of N-protected 1,2-aminoalcohols using functionalized trivalent organobismuth reagents.

The O-arylation of 1,2-aminoalcohols using functionalized triarylbismuth reagents is reported. The reaction can be performed using substoichiometric amounts of copper acetate and operates under mild conditions. Good functional group tolerance is observed, giving access to a range of ß-aryloxyamines. The effect provided by the amino group in the arylation reaction is investigated.

Antiproliferative, antiandrogenic and cytotoxic effects of novel caffeic acid derivatives in LNCaP human androgen-dependent prostate cancer cells.

Caffeic acid and its naturally occurring derivative caffeic acid phenethyl ester (CAPE) have antiproliferative and cytotoxic properties in a variety of cancer cell lines without displaying significant toxicity toward healthy cells, and are considered to be potential anticancer agents. However, little is known about their effects on prostate cancer cells. We synthesized and evaluated the effects of caffeic acid, CAPE (2) and 18 synthetic derivatives on cell viability and androgen-dependent cell proliferation, subcellular localisation and expression of androgen receptor (AR) and secretion of prostate-specific antigen (PSA) in LNCaP human hormone-dependent prostate cancer cells. Several synthetic derivatives of CAPE were strong, concentration-dependent cytotoxic agents in LNCaP cells with IC50 values in the 6.8-26.6 µM range, potencies that were up to five-fold greater than that of CAPE (33.7±4.0 µM). A number of caffeic acid derivatives were inhibitors of androgen-stimulated LNCaP cell proliferation with concomitant inhibition of DHT-stimulated PSA secretion. Compound 24 was the most cytotoxic and antiproliferative caffeic acid derivative (IC50 values of 6.8±0.3 and 2.4±0.8 µM, respectively) inhibiting DHT-stimulated cell proliferation and PSA secretion statistically significantly at concentrations as low as 0.3 µM. Exposure to DHT increased cytoplasmic and nuclear AR levels and co-treatment with increasing concentrations of compound 24 or CAPE (2), notably, further increased these levels. In conclusion, a number of synthetic derivatives of caffeic acid are potent inhibitors of androgen-dependent prostate cancer cell proliferation and viability, acting, at least in part, via an antiandrogenic mechanism that involves increased nuclear accumulation of (presumably inactive) AR.

NMR metabolomics analysis of the effects of 5-lipoxygenase inhibitors on metabolism in glioblastomas.

Changes across metabolic networks are emerging as an integral part of cancer development and progression. Increasing comprehension of the importance of metabolic processes as well as metabolites in cancer is stimulating exploration of novel, targeted treatment options. Arachidonic acid (AA) is a major component of phospholipids. Through the cascade catalyzed by cyclooxygenases and lipoxygenases, AA is also a precursor to cellular signaling molecules as well as molecules associated with a variety of diseases including cancer. 5-Lipoxygenase catalyzes the transformation of AA into leukotrienes (LT), important mediators of inflammation. High-throughput analysis of metabolic profiles was used to investigate the response of glioblastoma cell lines to treatment with 5-lipoxygenase inhibitors. Metabolic profiling of cells following drug treatment provides valuable information about the response and metabolic alterations induced by the drug action and give an indication of both on-target and off-target effects of drugs. Four different 5-lipoxygenase inhibitors and antioxidants were tested including zileuton, caffeic acid, and its analogues caffeic acid phenethyl ester and caffeic acid cyclohexethyl ester. A NMR approach identified metabolic signatures resulting from application of these compounds to glioblastoma cell lines, and metabolic data were used to develop a better understanding of the mode of action of these inhibitors.

An inventory of collaborative arrangements between Aboriginal peoples and the Canadian forest sector: linking policies to diversification in forms of engagement.

This paper examines collaborative arrangements between Aboriginal peoples and the forest sector across Canada. Using a broad definition of collaboration, we identified 1378 arrangements in 474 Aboriginal communities in all Canadian provinces and territories, except Nunavut. We categorize these collaborative arrangements into five broad types: treaties and other formal agreements; planning and management activities; influence on decision-making; forest tenures; and economic roles and partnerships. Consistent data was available for only the first three types, which showed that close to 60% of Aboriginal communities use each approach. However, this masks significant differences between provinces. For example, economic roles and partnerships are in place in all New Brunswick communities and 74% of communities in British Columbia, but only 12% of Manitoban communities. The proportion of communities that have been involved in participatory processes in forest decision-making (such as advisory committees and consultation processes) is particularly high in Quebec with 88% of communities, but only 32% of communities hold forest tenures. We also find that three-quarters of all communities choose to engage in two or more approaches, despite the demands that this can place upon the time and energy of community members. We finally consider how policy environments in different jurisdictions affect the frequency of certain types of collaboration. This empirical study, and the typology that it demonstrates, can inform policy development for Aboriginal involvement in Canadian forestry and help guide future research into broader issues of collaborative governance of natural resources.

Collaboration between Aboriginal peoples and the Canadian forest sector: a typology of arrangements for establishing control and determining benefits of forestlands.

Over the last thirty years, Aboriginal peoples, forestry companies and governments in Canada have developed a wide variety of arrangements and mechanisms aimed at fostering collaboration and establishing an increasing Aboriginal role in managing and harvesting forestlands. This paper seeks to facilitate the analysis and investigation of various forms of collaboration by presenting a typology based upon institutional arrangements and desired outcomes. Development of the typology followed an iterative process of categorisation, description, testing and revision, using scientific and grey literature combined with testing against an ever-widening number of communities; firstly in Quebec, then in six provinces and finally with 474 communities across the country. We identify five principal forms of collaborative arrangement, each with a number of sub-types: treaties and other formal agreements that establish roles and responsibilities; planning and management activities; influence on decision-making; forest tenures; and economic roles. The application and utility of this typology is illustrated through the examples of four communities, each of which is engaged in several different collaborative arrangements. The typology demonstrates the variety of arrangements that are available to encourage Aboriginal involvement in Canada's forest sector while also provided a basis for future work in comparing the benefits of different arrangements or in analysing the effectiveness of policies.

Synthesis and antiradical/antioxidant activities of caffeic acid phenethyl ester and its related propionic, acetic, and benzoic acid analogues.

Caffeic acid phenethyl ester (CAPE) is a bioactive component isolated from propolis. A series of CAPE analogues was synthesized and their antiradical/antioxidant effects analyzed. The effect of the presence of the double bond and of the conjugated system on the antioxidant effect is evaluated with the analogues obtained from 3-(3,4-dihydroxyphenyl) propanoic acid. Those obtained from 2-(3,4-dihydroxyphenyl) acetic acid and 3,4-dihydroxybenzoic acid allow the evaluation of the effect of the presence of two carbons between the carbonyl and aromatic system.

Why is hydrofluoric acid a weak acid?

The infrared vibrational spectra of amorphous solid water thin films doped with HF at 40 K reveal a strong continuous absorbance in the 1000-3275 cm(-1) range. This so-called Zundel continuum is the spectroscopic hallmark for aqueous protons. The extensive ionic dissociation of HF at such low temperature suggests that the reaction enthalpy remains negative down to 40 K. These observations support the interpretation that dilute HF aqueous solutions behave as weak acids largely due to the large positive reaction entropy resulting from the structure making character of the hydrated fluoride ion.

An innovative microarray strategy identities informative molecular markers for the detection of micrometastatic breast cancer.

There is increasing evidence that molecular detection of micrometastatic breast cancer in the axillary lymph nodes (ALN) of breast cancer patients can improve staging. Molecular analyses of samples obtained from the Minimally Invasive Molecular Staging of Breast Cancer Trial (n = 489 patients) indicate that whereas the majority of molecular markers are informative for the detection of metastatic breast cancer (significant disease burden), only a few are sensitive for the detection of micrometastatic disease (limited disease burden). Frequency distribution and linear regression analyses reveal that relative levels of gene expression are highly correlated with apparent sensitivity for the detection of micrometastic breast cancer (P < 0.05). These data provides statistical validation of the concept that the most informative markers for detection of micrometastatic disease are those that are most highly expressed in metastatic disease. To test this hypothesis, we developed an innovative microarray strategy. RNA from a metastatic breast cancer ALN was diluted into RNA from a normal lymph node and analyzed using Affymetrix microarrays. Expression analysis indicated that only two genes [mammaglobin (mam) and trefoil factor 1 (TFF1)] were significantly overexpressed at a dilution of 1:50. Real-time reverse transcription-PCR analysis of pathology-negative ALN (n = 72) confirm that of all the markers tested, mam and TFF1 have the highest apparent sensitivity for detection of micrometastatic breast cancer. We conclude that a dilutional microarray approach is a simple and reliable method for the identification of informative molecular markers for the detection of micrometastatic cancer.