Cytotoxic Plakortides from the Brazilian Marine Sponge Plakortis angulospiculatus

Abstract: Three new plakortides, 7,8-dihydroplakortide E (1), 2, and 10, along with known natural products 3, 4, spongosoritin A (5), 6-8, and plakortide P (9), were isolated from Brazilian specimens of Plakortis angulospiculatus. Compounds 2, 3, 5, and 7-9 displayed cytotoxic activities with IC50 values ranging from 0.2 to 10 μM. Compounds that contained a dihydrofuran ring were generally less active and displayed time dependence in their activity. The activities of compounds 2 and 7-9, carboxylic acids bearing a commo… Show more

“…The residue obtained after acidic workup was further purified via preparative RP-HPLC to yield the pure acid ( 1 ). The structure of the compound was analyzed by 1 H, 13 C, correlation spectroscopy (COSY), and nuclear Overhauser exchange spectroscopy (NOESY) nuclear magnetic resonance (NMR) spectroscopy and mass spectrometry and, according to the literature [29,33] and NOESY data, the pure acid was identified as a diastereomer of plakortide H acid, namely the 6-epimer. In fact, the NOESY data and coupling constants are in agreement with those found for plakortides M and N [29] and are in agreement with the literature [33] and thus, the same configuration was also assumed for the isolated compound, namely the ( R )-configuration at the 6-position and the ( R )-configuration at the carbon atom 10 [33].…”

“…The residue was purified using preparative RP-HPLC. Yellow viscous oil (4.1 mg); ${false[\mathrm{sans-serif\alpha }false]}_{\mathrm{D}}^{23}$ = −157.84 ( c 0.0037, CHCl 3 ) (reference [33] reports ${false[\mathrm{sans-serif\alpha }false]}_{\mathrm{D}}^{20}$ = −145 ( c 1.1, CHCl 3 )); ESI-MS: m/z 375.25 [M + Na] + , calcd. for C 21 H 36 O 4 , 352.51.…”

“…From a sample of this sponge, we isolated plakortide E ( 2 , Figure 1) and found that it was also active against trypanosomes [31]. Here, we report the cytotoxicity towards the drug-sensitive leukemia CCRF-CEM cell line (human Caucasian acute lymphoblastic leukemia, childhood T acute lymphoblastic leukemia) and its multi-drug resistant subline CEM/ADR5000 (multi-drug resistant CCRF cell line) (Table 2), of seven derivatives (Figure 1): the 6-epimer of the plakortide H acid ( 1 ) [32,33] along with the endoperoxides plakortide E ( 2 ), plakortin ( 3 ) [34,35,36], and dihydroplakortin ( 4 ) [36,37] that have been isolated from a sample of the Caribbean sponge Plakortis halichondrioides . In addition, the acid of plakortin, namely plakortic acid ( 5 ) [38,39], as well as the esters plakortide E methyl ester ( 6 ) [40,41] and the ester 6-epi-plakortide H ( 7 ) were synthesized by hydrolysis (plakortic acid) and Steglich esterification (plakortide E methyl ester and 6-epi-plakortide H), respectively, to perform a comparative study.…”

Cytotoxicity of Endoperoxides from the Caribbean Sponge Plakortis halichondrioides towards Sensitive and Multidrug-Resistant Leukemia Cells: Acids vs. Esters Activity Evaluation

“…The residue obtained after acidic workup was further purified via preparative RP-HPLC to yield the pure acid ( 1 ). The structure of the compound was analyzed by 1 H, 13 C, correlation spectroscopy (COSY), and nuclear Overhauser exchange spectroscopy (NOESY) nuclear magnetic resonance (NMR) spectroscopy and mass spectrometry and, according to the literature [29,33] and NOESY data, the pure acid was identified as a diastereomer of plakortide H acid, namely the 6-epimer. In fact, the NOESY data and coupling constants are in agreement with those found for plakortides M and N [29] and are in agreement with the literature [33] and thus, the same configuration was also assumed for the isolated compound, namely the ( R )-configuration at the 6-position and the ( R )-configuration at the carbon atom 10 [33].…”

“…The residue was purified using preparative RP-HPLC. Yellow viscous oil (4.1 mg); ${false[\mathrm{sans-serif\alpha }false]}_{\mathrm{D}}^{23}$ = −157.84 ( c 0.0037, CHCl 3 ) (reference [33] reports ${false[\mathrm{sans-serif\alpha }false]}_{\mathrm{D}}^{20}$ = −145 ( c 1.1, CHCl 3 )); ESI-MS: m/z 375.25 [M + Na] + , calcd. for C 21 H 36 O 4 , 352.51.…”

“…From a sample of this sponge, we isolated plakortide E ( 2 , Figure 1) and found that it was also active against trypanosomes [31]. Here, we report the cytotoxicity towards the drug-sensitive leukemia CCRF-CEM cell line (human Caucasian acute lymphoblastic leukemia, childhood T acute lymphoblastic leukemia) and its multi-drug resistant subline CEM/ADR5000 (multi-drug resistant CCRF cell line) (Table 2), of seven derivatives (Figure 1): the 6-epimer of the plakortide H acid ( 1 ) [32,33] along with the endoperoxides plakortide E ( 2 ), plakortin ( 3 ) [34,35,36], and dihydroplakortin ( 4 ) [36,37] that have been isolated from a sample of the Caribbean sponge Plakortis halichondrioides . In addition, the acid of plakortin, namely plakortic acid ( 5 ) [38,39], as well as the esters plakortide E methyl ester ( 6 ) [40,41] and the ester 6-epi-plakortide H ( 7 ) were synthesized by hydrolysis (plakortic acid) and Steglich esterification (plakortide E methyl ester and 6-epi-plakortide H), respectively, to perform a comparative study.…”

Cytotoxicity of Endoperoxides from the Caribbean Sponge Plakortis halichondrioides towards Sensitive and Multidrug-Resistant Leukemia Cells: Acids vs. Esters Activity Evaluation

“…However, the chemical and biological potential of Plakortis sponges is undoubtedly associated to their prolific production of 1,2-dioxane derivatives, exemplified by the antimalarial plakortin 5 and related plakortides. 6 These molecules are believed to share a propionate/butyrate-based polyketide biosynthetic origin, an hypothesis supported by the co-occurrence of analogues differing for the ketide unit (e.g. propionate in place of butyrate etc.)…”

“…Similarly, the structural elucidation of the new plakilactone I (7), was aided by comparison with data of plakilactone A (6). The molecular formula of 7 (C 15 H 26 O 2 ) lacked only a -CH 2 -unit compared to that of 6.…”

PPAR Modulating Polyketides from a Chinese Plakortis simplex and Clues on the Origin of Their Chemodiversity

Metabolomic fingerprinting of Brazilian marine sponges: a case study of Plakinidae species from Fernando de Noronha Archipelago