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Studies on the Natural Products from the Formosan Octocorals Briareum excavatum and Junceella fragilisChen, Yu-Pei 10 August 2005 (has links)
In connection with our long-standing interest in the chemical constituents of Formosan octocorals, we have investigated the octocorals Briarium excavatum and Junceella fragilis, collected at southern Taiwan coast. During the investigation, four new metabolites brianthiens D‐G (1‐4), have been isolated from Briareum excavatum. In addition, four 11,20-epoxybriaranes including three new metabolites, fragilides B‐D (5‐7), along with a known briarane (¡V)-11£\,20£\-epoxy-4-deacetoxyjunceellolide D (8), have been obtained from J. fragilis. The structure of 8 was revised as (¡V)-11£],20£]-epoxy-4-deacetoxyjunceellolide D (8) by detailed spectral data analysis. The structures, including the relative configurations of the new briaranes 1‐7, were elucidated by spectroscopic methods. The structure of fragilide B (5) was further confirmed by X-ray diffraction analysis. The relationship between 13C NMR chemical shifts and conformation of the cyclohexane ring in briaranes possessing 11,20-epoxy group, are also described.
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The study of marine excavatolide diterpenoids on bioactivities: Lessons learned from dendritic cells, dermatitis and type 1 diabetes in murine modelsWei, Wen-chi 19 January 2012 (has links)
Corals are marine animals from the class Anthozoa and are widely distributed in
tropical and subtropical seawaters. They are considered as an important source of lead
compounds for drug discovery. For evaluating the medicinal activities of briarane-type
diterpenoids (BrDs) from marine coral Briareum excavatum, the regulation of a group of briarane-type diterpenoids (BrDs) on dendritic cell (DC) function, TPA-induced dermatitis and type 1 diabetes was investigated. The results show that the BrD excavatolide K (BrD2) remarkably suppressed the activation of human DCs, especially the expression of IL-12 p40. This inhibitory effect was mediated apparently by interference with the rictor-mTOR/Akt-mediated signaling network, resulting in persistent-phase activation of NF-kB and Erk1/2 signalings. In addition, the 8,17-epoxide of BrDs was observed to play a crucial role in inhibition of IL-12 p40 expression. Replacement of the C-12 hydroxyl group with longer esters in BrDs gradually decreased this inhibitory activity in human DCs. BrD excavatolide B (BrD1) effectively suppressed the capacity of mouse bone marrow-derived DCs to induce an antigen-specific Th1, response via the inhibition of IL-12 expression. Moreover, excavatolide B prevented the onset of autoreactive T cell-mediated diabetes in NOD/SCID mice. Furthermore, excavatolide B remarkably suppressed TPA-induced vascular permeability and edema in test skin tissues. At the biochemical level, excavatolide B inhibited TPA-induced expression of cyclooxygenase-2, inducible nitric oxide synthase and matrix metalloproteinase-9, the key indicators of cutaneous inflammation. This inhibition is apparently mediated by interference with the Akt/NF-kB-mediated signaling network. Together, these studies demonstrate that BrDs from specific marine corals can effectively regulate defined molecular and cellular functions of dendritic cells, suppress TPA-induced dermatitis, and prevent type 1 diabetes in murine models suggesting that BrDs may warrant further investigation as natural immunomodulatory agents or therapeutics.
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Studies on the Natural Products from the Soft Corals Klyxum simplex, Subergorgia mollis and Briareum excavatumWu, Shwu-Li 08 September 2008 (has links)
In order to search for bioactive compounds, we have studied the chemical constituents from the organic extracts of one soft corals Klyxum simplex and two gorgonians Subergorgia mollis and Briareum excavatum. This study had led to the isolation of twenty-seven natural compounds 1¡V27, including nineteen new eunicellin¡Vtype diterpenoids, simplexins A¡VS (1¡V19) from K. simplex, one new steroid 11£\,15£\-diacetoxy-17£]-pregna-4,20- dien-3-one (20) along with one known compound 17£]-pregna-4,20-dien-3- one (21) from S. mollis, and six new briarane¡Vtype diterpenoids briaexcavatolides Q (22), S¡VV (23-26) and W (27) from B. excavatum. The structure of these compounds were established by the detailed spectroscopic analysis (IR, MS, 1D¡B2D NMR) and by comparison of the physical and spectral data with those of the related known compounds. The absolute configuration of 1 was determined by using a modified Mosher's method.
The cytotoxicity of compounds 1¡V6, 9, 13¡V15 against the MCF-7 (human breast adenocarcinoma), Hep2 (human laryngeal carcinoma), Daoy (human medulloblastoma), and Hela (human cervical epitheloid carcinoma) cancer cell lines were determined. Compounds 1, 4 and 14 showed weak inhibition against the growth of MCF-7, Hep2 and Daoy, but did not inhibit the growth of Hela cells. Compound 5 exhibited a weak cytotoxicity against the growth of MCF-7, Hep2, Hela and Daoy cells. In addition, the activity of compounds 1¡V6, 9, 13¡V15 to inhibit the pro-inflammatory iNOS and COX-2 protein expression in LPS-stimulated RAW264.7 macrophage cells was estimated. Compound 5 showed the best anti-inflammatory activity among the all tested compounds.
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Studies on Secondary Metabolites from Skin coral Briareum excavatumYeh, Tsun-tai 05 September 2011 (has links)
Soft corals of the genus Briareum (Briareidae) have been well known as a rich source for marine natural products with novel structural features. Briarane-related natural products attracted the attentions of researchers because of the structural complexity and interesting biological activity associated with numerous compounds of this type. Previous studies on the secondary metabolites of wild-type and cultured Formosan octocoral Briareum excavatum were collected around the sea area of Kenting. In the thesis of our studies on secondary metabolites from marine organisms, the acetone-soluble of the Formosan octocoral B. excavatum collected at Orchid Island has led to the isolation of eleven briarane-type diterpenoids (1−11), compounds 3, 4, and 6−10 are new compounds. The structures of these compounds were determined on the basis of their spectroscopic analysis (1H NMR, 13C NMR, 1H−1H COSY, HSQC, HMBC, NOESY, IR and mass spectra) and physical data by comparison of the physical and spectral data with those of the related literatures. The antiviral activity against HCMV (human cytomegalovirus) cells of these secondary metabolites was evaluated. Metabolite 8 exhibited significant activity against HCMV cells and compound 11 showed anti-inflammatory activity.−
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Diterpenoids from Taiwanese Soft Corals Xenia umbellata,Junceella juncea, and Junceella fragilisChen, Yu-hui 02 February 2007 (has links)
This research focuses on diterpenoids from Taiwanese soft corals Xenia umbellata Lamarck, Junceella juncea Pallas and Junceella fragilis Ridley. Twelve diterpenoids in addition to one sesequiterpenoid were isolated.
Our investigation of the soft coral X. umbellata Lamarck afforded five natural products, including two new xenicane diterpenes, xenibelatols A-B (1-2), together with two known xenicane diterpenes, 7,8-oxido- isoxeniolide (3), 9-hydroxyxeniolide-F (4), and a cadinene sesequiterpene, xenitorin A (5). Chemical investigation of the gorgonian J. juncea Pallas, has resulted in isolation of a new briarane diterpene, juncenolide H (6). Continuing our investigation of the gorgonian J. fragilis Ridley, we isolated seven briarane diterpenes, including four new briaranes, flajunolides A-D (7-10), along with three known briaranes, junceellolide E (11), umbraculolide A (12), 11This research focuses on diterpenoids from Taiwanese soft corals Xenia umbellata Lamarck, Junceella juncea Pallas and Junceella fragilis Ridley. Twelve diterpenoids in addition to one sesequiterpenoid were isolated.
Our investigation of the soft coral X. umbellata Lamarck afforded five natural products, including two new xenicane diterpenes, xenibelatols A-B (1-2), together with two known xenicane diterpenes, 7,8-oxido- isoxeniolide (3), 9-hydroxyxeniolide-F (4), and a cadinene sesequiterpene, xenitorin A (5). Chemical investigation of the gorgonian J. juncea Pallas, has resulted in isolation of a new briarane diterpene, juncenolide H (6). Continuing our investigation of the gorgonian J. fragilis Ridley, we isolated seven briarane diterpenes, including four new briaranes, flajunolides A-D (7-10), along with three known briaranes, junceellolide E (11), umbraculolide A (12),11£\, 20£\-epoxy-4-deacetoxy junceellolide D (13).
The new compounds 1,2 and 6-10 possess xenicane-type and briarane-type skeletons respectively. The structures of new compounds were determined by 1D-, 2D-NMR spectroscopic analysis and physical methods such as optical rotation, UV, IR, mass spectrum, as well as comparison with the spectroscopic data reported for related compounds.
Compounds 1 and 2 are geometric isomers of compounds 3 and 4. The only difference between them resides in the side chain. The geometry of the side chain influenced the relative spatial proximity of H-12, H-13, H-14 to the carbonyl at C-3, and consequently the extent to which these
protons are subjected to the anisotropic effects of the carbonyl.
Compounds 6-10 have acetyl groups at C-2, C-9, C-12, C-14 positions. Because of structural difference appears in briarane skeleton, they showed different chemical shifts in specific positions.
Biological activity test¡Arevealed that compound 5 exhibited moderate cytotoxic activity against KB and WiDr cancer cell lines with ED50 values at 5.9 and 9.9 £gg/ml respectively.
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