2. Results and Discussion
Compound 1 was isolated as a yellow oil from Nephthea sp. specimen A. Mass spectrometric analysis of the compound showed it to have the molecular formula C22H36O3 and therefore have five double bond equivalents of unsaturation. From the 1H and 13C NMR data of 1, it was evident that the molecule contained two C=C double bonds (δC 123.6 d, 126.2 d, 132.4 s, 134.9 s) and one C=O (δC 170.2 s) double bond as the only multiple bonds establishing it as bicyclic. The 1D and 2D NMR data of 1 also revealed the presence of an acetate (δC 170.2 s, 85.6 s, 22.8 q, 1.98 s [C-21, 22 and 15, respectively]) and an ether (δC 63.4 d and 61.5 s, δH 2.84 [dd, 9.4, 3.4 Hz], [C-3 and C-4, respectively]). From the 1H-1H COSY spectrum of 1, three continuous chains of coupling were discerned; from H2-13 to H-3 via H2-14, H-1 and H2-2, respectively; from H2-5 to H3-19, via H2-6 and H-7; and from H2-9 to H3-20, via H2-10, and H-11, respectively. From long-range 1H-13C couplings observed between H3-18 and C-3, C-4 and C-5; between H3-19 and C-7, C-8 and C-9; and between H3-20 and C-11, C-12 and C-13, and from 1,1-ADEQUATE cross-peaks [23] (See Table 1), it was possible to link together the three proton spin systems into a continuous carbon chain to form the first ring within 1. The chemical shifts associated with C-3, C-4 and H-3 indicated the ether functionality was in fact an epoxide, and hence formed the second ring within 1, fulfilling the requirement for five double bond equivalents of unsaturation. The protons associated with two of the three unassigned methyl groups demonstrated long-range 1H-13C couplings between each others carbon and, C-1 and C-15, giving rise to a gem-dimethyl constellation attached to C-1, leaving the acetate function to reside at C-15, leading to the planar structure of 1. The geometry of the two C=C double bonds within 1 were both deduced to be E based on the 13C NMR chemical shifts of C-19 and C-20 (δC 16.7 and 15.3, respectively). Based on the observation that the 13C NMR signals for C-2 and C-18 (δC 30.8 and 16.6, respectively) occurred significantly upfield of that for C-5 (δC 39.3), resulting from steric compression due to their cis orientation, the relative stereochemistry of the epoxide is as shown in 1 [24]. This deduction was further supported by comparison of the 13C NMR chemical shift data for C-3, C-4 and C-18 in 1 with those for 6, as well as the 1H NMR data associated with H-3 in both compounds. Selective 1D NOESY excitation of the epoxide proton H-3 (δ 2.84) gave rise to signals corresponding to H-1 (δ 2.22), H-2 (δ 1.56), H-5 (δ 1.13), H-7 (δ 5.23) and H-11 (δ 5.13); this information, and comparison of both 1H and 13C NMR data with those for 6 confirmed the relative configuration at C-1, 3 and 4 to be deduced as shown in 1. Unfortunately, the absolute stereochemistry of 1 could not be determined as the compound was unstable and degraded before an optical rotation could be obtained. Literature searches for this molecule revealed it to be a new compound and the acetylated derivative of 3,4-epoxy-nephthenol, 6 [28].
HRESIMS of 2, also isolated from Nephthea sp. specimen A, resulted in an [M + Na]+ ion corresponding to a molecular formula of C20H34O2 and hence four degrees of double bond unsaturation. The 1H and 13C NMR data of 2 revealed the presence of two C=C double bonds (δC 132.6 s, 132.1 s, 128.0 d and 127.7 d) as the only multiple bonds within the molecule indicating a bicyclic structure. Carbon chemical shifts indicated the presence of three oxygenated carbons (δC 76.8 s, 75.1 s and 70.3 d), two of which formed an ether linkage accounting for one of the rings within 2, and the third an alcohol (δH 4.20 [dd, 11.7, 5.6 Hz, axial proton]). Database and literature searches using this information and comparison of spectroscopic data with literature values confirmed 2 to be the known compound decaryiol [28]. Selective 1D NOESY experiments enabled the relative configuration of 2 to be determined as shown; NOESY correlations were observed from H-3 to H-1, H-2, H-5, H-6, H-7 and H-11; from H-7 to H-3, H-5, H-6 (δH 2.62 br and 1.88 s) and H-9 (δH 2.20 br and 2.17 s); from H-11 to H-1, H-2, H-3, H-9, H-10 and H-13; and from H-18 to H-2.
Accurate mass measurement of 3 showed it to have the molecular formula C20H32O and to contain five double bond equivalents of unsaturation. From the 1H and 13C NMR data of 3 it was evident that the molecule contained four C=C double bonds (δC 134.6 s, 133.4 d, 132.1 s, 131.5 s, 127.9 d, 127.3 d, 126.3 d and 126.2 d), revealing it to be monocyclic. It was also evident from this data that 3 had one carbon attached to an oxygen, therefore an hydroxyl, functionality (δC 72.3 s). As for 1, three chains of 1H-1H coupling were discerned from the COSY spectrum of 3; from H2-13 to H-3 via H2-14, H-1 and H2-2, respectively; from H3-18 to H3-19, via H-5, H2-6 and H-7; and from H2-9 to H3-20, via H2-10, and H-11, respectively. From long-range 1H-13C couplings observed between H3-18 (δC 19.9, Δ4 Z configuration) and C-4 and C-5; between H3-19 (δC 14.5, Δ7 E configuration) and C-7, C-8 and C-9; and between H3-20 (δC 14.3, Δ11 E configuration) and C-11, C-12 and C-13, and 1,1-ADEQUATE [23] cross-peaks (Figure 1), it was possible to link together the three proton spin systems into a continuous carbon chain to form the one ring within 3. HMBC and COSY correlations also confirmed two of the C=C double bonds (Δ2 and Δ4) were conjugated; H-2 to C-4, H-3 to C-4 and C-5, and H-5 to C-3, and that Δ2 had E configuration (H-2: δH 5.20 [dd, 15.3, 10.0 Hz]; H-3: δH 6.20 [d, 15.3 Hz]). Comparison of these data with literature values for cembrenene (7) previously isolated from Sinularia mayi [26], (Table 2) indicated the structures to be similar. The protons associated with the two remaining methyl groups CH3-16 and CH3-17 demonstrated long-range 1H-13C couplings to each others protons and carbon and to C-1 and C-15 giving rise to a gem-dimethyl constellation attached to C-1 with the hydroxyl moiety residing at C-15, and the planar structure as shown in 3, 15-hydroxy-cembrenene. Literature searches for this molecule yielded a report detailing the synthetic dehydration of 2-hydroxy-nepthenol to give 3 [27]. The current report, however, is the first time 3 has been isolated from a natural source.
A second Nephthea sp., specimen B, was investigated for its anticancer activity with one of the active fractions yielding 4, having the same molecular formula as 2, C20H34O2. Comparison of the 1H and 13C NMR data of 4 with those of 2 showed it to contain only two oxygenated carbons (δC 71.1 d and 74.6 s) as compared to the three in 2, and three C=C double bonds (δC 139.5 s, 135.4 s, 133.3 s, 127.9 d, 124.9 d and 123.9 d) rather than two as found in 2, confirming it to be a monocyclic diol. Its 1D and 2D NMR data confirmed it to be 2-hydroxy-nephthenol [27]. After leaving 4 to stand for one week in CDCl3, it was found to have quantitatively rearranged to 3. Given this result, it is unclear whether 3, previously reported synthetically [27] and reported here from Nephthea sp. specimen A, was in fact a natural product, or a by-product of the isolation process [27]. However, close inspection of fractions from specimen A shortly after they were prepared did not reveal the presence of any 4, leading us to believe that 3 is in actual fact naturally occurring.
A second active compound, 5, was isolated from specimen B. The mass spectrum of 5 showed an [M + Na]+ ion in its HRESIMS consistent with the molecular formula C20H34O and four degrees of C=C unsaturation. The 1H and 13C NMR data of 5 showed it to contain three C=C double bonds (δC 134.1 s, 133.4 s, 133.0 s, 125.9 d, 125.8 d and 125.0 d) as well as one hydroxyl group (δC 75.1 s), making it a monocyclic alcohol. Comparison of its spectroscopic data with literature values confirmed 5 to be nephthenol [28].
Compound 8 was isolated as a yellow oil with the molecular formula of C20H32O2, as determined by HRESIMS measurement of its [M – H]− ion. Analysis of the 1H and 13C NMR spectral data of 8 in CDCl3 revealed signals consistent with the presence of a carboxyl group (δC 177.9 s) and eight sp2 methine carbons (δC 130.5 d, 129.0 d, 128.8 d, 128.6 d, 128.3 d, 128.1 d, 127.9 d and 127.5 d) accounting for all five of the C=C double bond equivalents of unsaturation within the molecule and showing it to be acyclic. Signals from three methylene carbons adjacent to cis double bonds were observed at δC 25.6, 25.6 and 25.6, as well as for seven other methylene carbons and one methyl group (δC 14.0). Comparison of these values with literature values confirmed 8 as the fatty acid arachidonic (20:4n-6) acid [29].
Compounds 1–5, and 8 were screened for their whole cell anticancer activity against three human tumor cell lines (SF-268 [CNS], MCF-7 [breast], H460 [lung]). All compounds demonstrated weak (GI50 > 100 μM) non-selective activity towards the three cell lines.
3. Experimental Section
3.1. General experimental
C18 flash vacuum chromatography was performed using Phenomenex C18 (50 μm). HPLC was performed employing a Phenomenex Luna C18 column (250 × 21 mm) attached to a Shimadzu HPLC system consisting of a Shimadzu SCL-10Avp system controller equipped with a Shimadzu LC-10AT pump, Shimadzu SPD-M10Avp photodiode array detector, Shimadzu FRC-10A fraction collector and Shimadzu SIL-10A auto sampler using Shimadzu Class-VP software. IR spectra were measured on a Nicolet Nexus FTIR. Optical rotations were collected on a Jasco 715 CD polarimeter. All NMR spectra were recorded on either a Bruker Avance 600 MHz NMR spectrometer complete with cryoprobe, or a Bruker Avance 300 MHz NMR spectrometer, with spectra referenced to residual 1H and 13C resonances in the deuterated solvents. Accurate mass spectrometric data were measured using a Bruker BioApex 47 FT mass spectrometer. All other details as previously published [30].
3.2. Animal material
Nephthea sp. specimen A was collected from Seribu Islands, DKI Jakarta, Indonesia, at a depth of 10 m, at 10:21 am, on the 22 July 2005; Nephthea sp. specimen B was collected from Seribu Islands, DKI Jakarta, Indonesia, at a depth of 15 m, at 1:10 pm, on the 22 June, 2005. Soft coral taxonomy was undertaken by K. Fabricius, AIMS. A voucher sample for each specimen has been lodged with the Indonesia Research Center for Marine and Fisheries Product Processing and Biotechnology, Jakarta, Indonesia.
3.3. Bioassay
Natural product samples were assayed against three cell lines; SF-268, MCF-7 and H460 cells, as described in a previous study [31]. In brief, natural product samples, solubilized in DMSO and serially diluted in RPMI 1640 medium, were added to SF-268, MCF-7 and H460 cells so that the final doses ranged from 1000 μg/mL to 1 μg/mL. Total cellular protein was measured using the sulforhodamine B (SRB) assay as an indicator of cell number. Inhibition of growth by 50% (GI50) was determined by comparing the sample treated values to those of vehicle only control and time 0 readings.
3.4. Extraction and isolation
Extract A: The organic solubles (0.84 g), obtained by employing repeated extraction of 100.00 g wet weight of Nephthea sp. specimen A with MeOH, were filtered through a plug of reversed phase C18 silica using MeOH as eluent. The MeOH was removed under reduced pressure and the resultant dry extract subjected to preparative RP-HPLC (9 mL/min, gradient elution from 15% MeCN:H2O to 100% MeCN; column 250 × 20 mm RP Luna C18 (2), Phenomenex, over 70 mins) to yield 63 fractions. Three of the 63 fractions, 27, 30 and 32, were found to be active in the applied bioassay systems. 1H NMR analysis of these fractions showed them to be a 1:1 mixture of 3 and 4 (10.0 mg, 1.19% organic extract), 8 (10.0 mg, 1.19% organic extract), and 5 (10.0 mg, 1.19% organic extract), respectively.
Extract B: The organic solubles (3.31 g), obtained by employing repeated extraction of 300.00 g wet weight of Nephthea sp. specimen B with MeOH, were filtered through a plug of reversed phase C18 silica using MeOH and DCM as eluents. The MeOH and DCM were removed under reduced pressure and the resultant dry extracts (1.49 g and 0.10 g, respectively) subjected to preparative RP-HPLC. The MeOH extract (9 mL/min, gradient elution from 15% MeCN:H2O to 100% MeCN; column 250 × 20 mm RP Luna C18 (2), Phenomenex, over 70 mins) yielded 57 fractions of which only one, fraction 35, was found to be active in the applied bioassay systems. 1H NMR analysis of this fraction showed it to be 2 (57.9 mg, 1.75% organic extract). The DCM extract (9 mL/min, gradient elution from 15% MeCN:H2O to 100% MeCN; column 250 × 20 mm RP Luna C18 (2), Phenomenex, over 70 mins) yielded 55 fractions of which two, fractions 16 and 18, were found to be active in the applied bioassay systems. 1H NMR analysis of these fractions showed them to be 3 (2.3 mg, 0.07% organic extract), and 1 (0.8 mg, 0.02% organic extract), respectively.
Compound 1 (3,4-Epoxy-nephthenol acetate). A yellow oil; [α]D Sample decomposed prior to measurement; 1H (600 MHz, CDCl3), and 13C (150 MHz, CDCl3) NMR data see Table 1; HRESIMS m/z found 371.2563 for [M + Na]+ (calcd for C22H36O3Na 371.2557).
Compound 2 (Decaryiol). A yellow oil [α]D 20 + 27.2° (c 0.01), cf + 69.0° [25]; 13C (150 MHz, CDCl3) NMR data see Table 2; HRESIMS m/z found 329.2458 for [M – H]+ (calcd for C20H34O2Na 329.2451); and all remaining data as previously published [25].
Compound 3 (15-Hydroxy-cembrenene). A yellow oil; [α]D Sample decomposed prior to measurement; 1H (600 MHz, CDCl3) and 13C (150 MHz, CDCl3) NMR data see Table 2; HRESIMS m/z found 311.2330 for [M – H]+ (calcd for C20H32ONa 311.2345); and all remaining data as previously published [27].
Compound 4 (2-Hydroxy-nephthenol). A clear oil 13C (150 MHz, CDCl3) NMR data see Table 2; HRESIMS m/z found 329.2452 for [M + Na]+ (calcd for C20H34O2Na 329.2451); and all remaining data as previously published [27].
Compound 5 (Nephthenol). A clear oil; 13C (150 MHz, CDCl3) NMR data see Table 2; HRESIMS m/z found 313.2517 for [M – H]+ (calcd for C20H34ONa 313.2502); and all remaining data as previously published [28].
Compound 8 (Arachidonic acid). A yellow oil; 13C (150 MHz, CDCl3) NMR data see Table 2; HRESIMS m/z found 303.2325 for [M – H2O + Na]+ (calcd for C20H31O2 303.2330); and all remaining data as previously published [29].