Voatriafricanines A and B, Trimeric Vobasine-Aspidosperma-Aspidosperma Alkaloids from <i>Voacanga africana</i>

Fouotsa, Hugues; Pogam, Pierre Le; Mkounga, Pierre; Lannang, Alain Méli; Bernadat, Guillaume; Vanheuverzwijn, Jérôme; Zhou, Zhanpeng; Leblanc, Karine; Rharrabti, Somia; Nkengfack, Augustin Ephrem; Gallard, Jean‐François; Fontaine, Véronique; Meyer, Franck; Poupon, Erwan; Beniddir, Mehdi A.

doi:10.1021/acs.jnatprod.1c00812

Cited by 9 publications

(8 citation statements)

References 27 publications

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“…Compound 229 is a novel indole-linked 2,5-diketomorpholine alkaloid with an unprecedented 6/5/6/6/5 core, while compound 230 contains an indole fused with pyrrole and possesses a 6/5/5 core [ 64 ]. Compounds 231 and 232 were isolated from the bark of Voacanga africana , and they are the first monoterpene trisindole alkaloids containing a vobasine–aspidosperma–aspidosperma skeleton [ 65 ]. Similarly, compound 233 is the first methylenedioxy dibromoindole alkaloid exhibiting antiosteoporosis activity [ 66 ].…”

Section: Isolation Of Novel Indole Alkaloidsmentioning

confidence: 99%

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Indole-Containing Natural Products 2019–2022: Isolations, Reappraisals, Syntheses, and Biological Activities

et al. 2022

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Indole alkaloids represent a large subset of natural products, with more than 4100 known compounds. The majority of these alkaloids are biologically active, with some exhibiting excellent antitumor, antibacterial, antiviral, antifungal, and antiplasmodial activities. Consequently, the natural products of this class have attracted considerable attention as potential leads for novel therapeutics and are routinely isolated, characterized, and profiled to gauge their biological potential. However, data on indole alkaloids, their various structures, and bioactivities are complex due to their diverse sources, such as plants, fungi, bacteria, sponges, tunicates, and bryozoans; thus, isolation methods produce an incredible trove of information. The situation is exacerbated when synthetic derivatives, as well as their structures, bioactivities, and synthetic schemes, are considered. Thus, to make such data comprehensive and inform researchers about the current field’s state, this review summarizes recent reports on novel indole alkaloids. It deals with the isolation and characterization of 250 novel indole alkaloids, a reappraisal of previously reported compounds, and total syntheses of indole alkaloids. In addition, several syntheses and semi-syntheses of indole-containing derivatives and their bioactivities are reported between January 2019 and July 2022.

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Section: Isolation Of Novel Indole Alkaloidsmentioning

confidence: 99%

“…Compounds 231 and 232 showed no cytotoxicity, and only compound 231 showed weak antimycobacterial activity. Replacing the C-12 proton in compound 231 with a methoxy group as in 232 completely lost the activity [ 65 ].…”

Section: Bioactivities Of Novel Indole Alkaloidsmentioning

confidence: 99%

Indole-Containing Natural Products 2019–2022: Isolations, Reappraisals, Syntheses, and Biological Activities

et al. 2022

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“…In such context, molecular networking strategies have proved useful to select natural material deserving deeper chemical studies as well as to streamline the isolation of compounds of interest through a rational, hypothesis-driven workflow 21 . This provides new opportunities to focus on minor, interesting compounds from deeply-dug plant material 22 , 23 . Nevertheless, the success of this dereplicative strategy primarily depends on the availability of reference tandem mass spectra uploaded to the GNPS spectral libraries 7 .…”

Section: Background and Summarymentioning

confidence: 99%

Implementation of a MS/MS database for isoquinoline alkaloids and other annonaceous metabolites

et al. 2022

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This data descriptor reports on the upload to a public repository (GNPS) of the IQAMDB, IsoQuinoline and Annonaceous Metabolites Data Base, comprising 320 tandem mass spectra. This project originated from our in-house collection of isoquinolines. The diversity of compounds included in this database was further extended through the contribution of two additional laboratories involved in isoquinoline alkaloids research: University of Angers and University of Manaus. The generated MS/MS data were processed and annotated on an individual basis to promote their straightforward reuse by natural product chemists interested in either the description of new isoquinoline alkaloids or the dereplication of isoquinoline-containing samples. The interest of the current repertoire for dereplication purposes has been validated based on the molecular networking of the well-investigated plant model Annona montana against the IQAMDB‐implemented GNPS.

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“…Despite decades of intensive phytochemical campaigns dedicated to the monoterpene indole alkaloid (MIA) content of this plant, it still represents a subject of phytochemical and biosynthesis investigations. , Here we describe the structure elucidation, a plausible biosynthetic logic, and the biological evaluation of trirosaline ( 1 ), the first example of a naturally occurring trimeric monoterpene indole alkaloid in C. roseus . So far, ten trimers have been encountered in the MIA family, namely: strychnohexamine, bousigonine B, bousangustine A, taberdivarines A and B, divaricamine A, ervadivamines A and B, as well as voatriafricanines A and B …”

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confidence: 99%

“…8 So far, ten trimers have been encountered in the MIA family, namely: strychnohexamine, 9 bousigonine B, 10 bousangustine A, 11 taberdivarines A and B, 12 divaricamine A, 13 ervadivamines A and B, 14 as well as voatriafricanines A and B. 3 As a way to explore the chemical diversity of the alkaloid extract of the roots of C. roseus, UHPLC-MS profiling was performed. The cursory examination of its mass chromatogram revealed a signal standing for an unusually heavy molecule in this plant source.…”

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confidence: 99%

Combination of Machine Learning and Empirical Computation for the Structural Validation of Trirosaline, a Natural Trimeric Monoterpene Indole Alkaloid from Catharanthus roseus

Szwarc,

Jagora,

Derbré

et al. 2023

Org. Lett.

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Chemical investigation of the emblematic Catharanthus roseus led to the discovery of trirosaline (1), the first example of a trisajmalicine-type monoterpene indole alkaloid and the first natural trimeric MIA ever reported from this deeply dug plant species. Its structure was primarily elucidated based on NMR and HRESIMS analyses, and the nature of its unique intermonomeric linkages was firmly confirmed based on a combination of empirical computation and ML-J-DP4 study. Its absolute configuration was mitigated by comparison of experimental and TDDFT-simulated electronic circular dichroism (ECD) spectra. A possible biosynthetic pathway for trirosaline (1) was postulated.

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Voatriafricanines A and B, Trimeric Vobasine-Aspidosperma-Aspidosperma Alkaloids from Voacanga africana

Cited by 9 publications

References 27 publications

Indole-Containing Natural Products 2019–2022: Isolations, Reappraisals, Syntheses, and Biological Activities

Indole-Containing Natural Products 2019–2022: Isolations, Reappraisals, Syntheses, and Biological Activities

Implementation of a MS/MS database for isoquinoline alkaloids and other annonaceous metabolites

Combination of Machine Learning and Empirical Computation for the Structural Validation of Trirosaline, a Natural Trimeric Monoterpene Indole Alkaloid from Catharanthus roseus

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