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  • 1. Davis, Rohan A.
    et al.
    Beattie, Karren D.
    Xu, Min
    Yang, Xinzhou
    Yin, Sheng
    Holla, Harish
    Healy, Peter C.
    Sykes, Melissa
    Shelper, Todd
    Avery, Vicky M.
    Elofsson, Mikael
    Umeå University, Faculty of Science and Technology, Department of Chemistry.
    Sundin, Charlotta
    Umeå University, Faculty of Science and Technology, Department of Chemistry. Creative Antibiotics Sweden AB, Umeå, Sweden.
    Quinn, Ronald J.
    Solving the supply of resveratrol tetramers from Papua New Guinean rainforest anisoptera species that inhibit bacterial type Ill secretion systems2014In: Journal of natural products (Print), ISSN 0163-3864, E-ISSN 1520-6025, Vol. 77, no 12, p. 2633-2640Article in journal (Refereed)
    Abstract [en]

    ABSTRACT: The supply of (−)-hopeaphenol (1) was achieved via enzymatic biotransformation in order to provide material for preclinical investigation. High-throughput screen- ing of a prefractionated natural product library aimed to identify compounds that inhibit the bacterial virulence type III secretion system (T3SS) identified several fractions derived from two Papua New Guinean Anisoptera species, showing activity against Yersinia pseudotuberculosis outer proteins E and H (YopE and YopH). Bioassay-directed isolation from the leaves of A. thurifera, and similarly A. polyandra, resulted in three known resveratrol tetramers, (−)-hopeaphenol (1), vatalbinoside A (2), and vaticanol B (3). Compounds 1−3 displayed IC50 values of 8.8, 12.5, and 9.9 μM in a luminescent reporter-gene assay (YopE) and IC50 values of 2.9, 4.5, and 3.3 μM in an enzyme-based YopH assay, respectively, which suggested that they could potentially act against the T3SS in Yersinia. The structures of 1−3 were confirmed through a combination of spectrometric, chemical methods, and single-crystal X-ray structure determinations of the natural product 1 and the permethyl ether analogue of 3. The enzymatic hydrolysis of the β-glycoside 2 to the aglycone 1 was achieved through biotransformation using the endogenous leaf enzymes. This significantly enhanced the yield of the target bioactive natural product from 0.08% to 1.3% and facilitates ADMET studies of (−)-hopeaphenol (1).

  • 2.
    Moodie, Lindon W. K.
    et al.
    Umeå University, Faculty of Science and Technology, Department of Chemistry. UiT Arctic Univ Norway, Dept Chem, N-9037 Tromsö, Norway.
    Trepos, Rozenn
    Cervin, Gunnar
    Brathen, Kari Anne
    Lindgard, Bente
    Reiersen, Rigmor
    Cahil, Patrick
    Pavia, Henrik
    Hellio, Claire
    Svenson, Johan
    Prevention of Marine Biofouling Using the Natural Allelopathic Compound Batatasin-Ill and Synthetic Analogues2017In: Journal of natural products (Print), ISSN 0163-3864, E-ISSN 1520-6025, Vol. 80, no 7, p. 2001-2011Article in journal (Refereed)
    Abstract [en]

    The current study reports the first comprehensive evaluation of a class of allelopathic terrestrial natural products as antifoulants in a marine setting. To investigate the antifouling potential of the natural dihydrostilbene scaffold, a library of 22 synthetic dihydrostilbenes with varying substitution patterns, many of which occur naturally in terrestrial plants, were prepared and assessed for their antifouling capacity. The compounds were evaluated in an extensive screen against 16 fouling marine organisms. The dihydrostilbene scaffold was shown to possess powerful general antifouling effects against both marine microfoulers and macrofoulers with inhibitory activities at low concentrations. The species of microalgae examined displayed a particular sensitivity toward the evaluated compounds at low ng/mL concentrations. It was shown that several of the natural and synthetic compounds exerted their repelling activities via nontoxic and reversible mechanisms. The activities of the most active compounds such as 3,5-dimethoxybibenzyl (5), 3,4-dimethoxybibenzyl (9), and 3-hyolroxy-3',4,5'-trirnethoxybibenzyl (20) were comparable to the commercial antifouling booster biocide. Sea-nine, which was employed as a positive control. The investigation of terrestrial allelopathic natural products to counter marine fouling represents a novel strategy for the design of "green" antifouling technologies, and these compounds offer a potential alternative to traditional biocidal antifoulants.

  • 3.
    Moodie, Lindon W. K.
    et al.
    Umeå University, Faculty of Science and Technology, Department of Chemistry. Department of Chemistry, UiT The Arctic University of Norway, Breivika, N-9037, Tromsø, Norway.
    Trepos, Rozenn
    Cervin, Gunnar
    Larsen, Lesley
    Larsen, David S.
    Pavia, Henrik
    Hellio, Claire
    Cahill, Patrick
    Svenson, Johan
    Probing the Structure-Activity Relationship of the Natural Antifouling Agent Polygodial against both Micro- and Macrofoulers by Semisynthetic Modification2017In: Journal of natural products (Print), ISSN 0163-3864, E-ISSN 1520-6025, Vol. 80, no 2, p. 515-525Article in journal (Refereed)
    Abstract [en]

    The current study represents the first comprehensive investigation into the general antifouling activities of the natural drimane sesquiterpene polygodial. Previous studies have highlighted a high antifouling effect toward macrofoulers, such as ascidians, tubeworms, and mussels, but no reports about the general antifouling effect of polygodial have been communicated before. To probe the structural and chemical basis for antifouling activity, a library of 11 polygodial analogues was prepared by semisynthesis. The library was designed to yield derivatives with ranging polarities and the ability to engage in both covalent and noncovalent interactions, while still remaining within the drimane sesquiterpene scaffold. The prepared compounds were screened against 14 relevant marine micro- and macrofouling species. Several of the polygodial analogues displayed inhibitory activities at sub-microgram/mL concentrations. These antifouling effects were most pronounced against the macrofouling ascidian Ciona savignyi and the barnacle Balanus improvisus, with inhibitory activities observed for selected compounds comparable or superior to several commercial antifouling products. The inhibitory activity against the microfouling bacteria and microalgae was reversible and significantly less pronounced than for the macrofoulers. This study illustrates that the macro- and microfoulers are targeted by the compounds via different mechanisms.

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