Chemical and biological study of Gabonese Gentianales with antoplasmodial interest, bearing monoterpene indole alkaloids
Identifieur interne : 000046 ( Hal/Corpus ); précédent : 000045; suivant : 000047Chemical and biological study of Gabonese Gentianales with antoplasmodial interest, bearing monoterpene indole alkaloids
Auteurs : Elvis Otogo N'NangSource :
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Abstract
The chemical study of 11 Gabonese plant species, some being used in traditional medicine, was performed in search of antiplasmodial compounds with new structures. Two Apocynaceae (Pleiocarpa mutica Benth., Callichilia inaequalis Stapf) and a Gelsemiaceae (Mostuea brunonis Didr.) were more specifically investigated, using LC-MS/MS data in a dereplicative approach based on the “molecular networking” strategy, with an annotation performed using an “in-house” monoterpene indole alkaloids database (MIADB). This approach was used to guide the isolation of original alkaloids, in terms of substitution patterns or of linkage. From the stem bark of P. mutica, 7 previously undescribed bis-indoles were obtained: five are bis-aspidofractanes, four of them being linked by a methylene bridge (pleiokomenines A-D); Two are aspidofractane-eburnane dimers analogous to pleiomutine.The twigs and roots of C. inaequalis yielded 2 new bis-indoles analogous to criophylline, among which one is the first natural sulfate-bearing indole monoterpene. Inaequalisine A, the first monomeric indole monoterpene linked to a phenylpropene moiety by a C-C linkage was also obtained.The study of the twigs and leaves of M. brunonis lead to 4 new compounds: A monomeric sarpagine (16-epi-methylester-panarine) and 3 unknown bis-vobasines which constituting monomers are linked by a sulfide bridge (theionbrunonines A-C).Known compounds were also isolated, some of which were previously undescribed in the genera studied here. Several of the new molecules exhibited antiplasmodial in vitro activity in the micromolar range against a chloroquine-resistant strain of P. falciparum.
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Two Apocynaceae (Pleiocarpa mutica Benth., Callichilia inaequalis Stapf) and a Gelsemiaceae (Mostuea brunonis Didr.) were more specifically investigated, using LC-MS/MS data in a dereplicative approach based on the “molecular networking” strategy, with an annotation performed using an “in-house” monoterpene indole alkaloids database (MIADB). This approach was used to guide the isolation of original alkaloids, in terms of substitution patterns or of linkage. From the stem bark of P. mutica, 7 previously undescribed bis-indoles were obtained: five are bis-aspidofractanes, four of them being linked by a methylene bridge (pleiokomenines A-D); Two are aspidofractane-eburnane dimers analogous to pleiomutine.The twigs and roots of C. inaequalis yielded 2 new bis-indoles analogous to criophylline, among which one is the first natural sulfate-bearing indole monoterpene. Inaequalisine A, the first monomeric indole monoterpene linked to a phenylpropene moiety by a C-C linkage was also obtained.The study of the twigs and leaves of M. brunonis lead to 4 new compounds: A monomeric sarpagine (16-epi-methylester-panarine) and 3 unknown bis-vobasines which constituting monomers are linked by a sulfide bridge (theionbrunonines A-C).Known compounds were also isolated, some of which were previously undescribed in the genera studied here. Several of the new molecules exhibited antiplasmodial in vitro activity in the micromolar range against a chloroquine-resistant strain of P. falciparum.</p> </div></front></TEI><hal api="V3"> <titleStmt> <title xml:lang="en">Chemical and biological study of Gabonese Gentianales with antoplasmodial interest, bearing monoterpene indole alkaloids</title> <title xml:lang="fr">Étude chimique et biologique de Gentianales gabonaises d’intérêt antipaludique, à alcaloïdes indolomonoterpéniques</title> <author role="aut"> <persName> <forename type="first">Elvis</forename> <surname>Otogo n'nang</surname> </persName> <idno type="halauthorid">11415501</idno> <affiliation ref="#struct-1228"></affiliation> </author> <editor role="depositor"> <persName> <forename>ABES</forename> <surname>STAR</surname> </persName> <email type="md5">f5aa7f563b02bb6adbba7496989af39a</email> <email type="domain">abes.fr</email> </editor> </titleStmt> <editionStmt> <edition n="v1" type="current"> <date type="whenSubmitted">2019-02-22 01:01:25</date> <date type="whenModified">2020-02-03 02:37:55</date> <date type="whenReleased">2019-02-22 01:01:26</date> <date type="whenProduced">2018-02-21</date> <date type="whenEndEmbargoed">2019-02-22</date> <ref type="file" target="https://tel.archives-ouvertes.fr/tel-02045357/document"> <date notBefore="2019-02-22"></date> </ref> <ref type="file" subtype="author" n="1" target="https://tel.archives-ouvertes.fr/tel-02045357/file/71504_OTOGO_NNANG_2018_diffusion.pdf"> <date notBefore="2019-02-22"></date> </ref> </edition> <respStmt> <resp>contributor</resp> <name key="131274"> <persName> <forename>ABES</forename> <surname>STAR</surname> </persName> <email type="md5">f5aa7f563b02bb6adbba7496989af39a</email> <email type="domain">abes.fr</email> </name> </respStmt> </editionStmt> <publicationStmt> <distributor>CCSD</distributor> <idno type="halId">tel-02045357</idno> <idno type="halUri">https://tel.archives-ouvertes.fr/tel-02045357</idno> <idno type="halBibtex">otogonnang:tel-02045357</idno> <idno type="halRefHtml">Chimie thérapeutique. Université Paris-Saclay; Université des Sciences et Techniques de Masuku (Gabon), 2018. Français. ⟨NNT : 2018SACLS039⟩</idno> <idno type="halRef">Chimie thérapeutique. Université Paris-Saclay; Université des Sciences et Techniques de Masuku (Gabon), 2018. Français. ⟨NNT : 2018SACLS039⟩</idno> </publicationStmt> <seriesStmt> <idno type="stamp" n="STAR">STAR - Dépôt national des thèses électroniques</idno> <idno type="stamp" n="INC-CNRS">Institut de Chimie du CNRS</idno> <idno type="stamp" n="UNIV-PSUD-SACLAY" corresp="UNIV-PARIS-SACLAY">Université Paris Sud pour Paris Saclay</idno> <idno type="stamp" n="CNRS">CNRS - Centre national de la recherche scientifique</idno> <idno type="stamp" n="UNIV-PSUD">Université Paris Sud - Paris XI</idno> <idno type="stamp" n="UNIV-PARIS-SACLAY">Université Paris-Saclay</idno> </seriesStmt> <notesStmt></notesStmt> <sourceDesc> <biblStruct> <analytic> <title xml:lang="en">Chemical and biological study of Gabonese Gentianales with antoplasmodial interest, bearing monoterpene indole alkaloids</title> <title xml:lang="fr">Étude chimique et biologique de Gentianales gabonaises d’intérêt antipaludique, à alcaloïdes indolomonoterpéniques</title> <author role="aut"> <persName> <forename type="first">Elvis</forename> <surname>Otogo n'nang</surname> </persName> <idno type="halauthorid">11415501</idno> <affiliation ref="#struct-1228"></affiliation> </author> </analytic> <monogr> <idno type="nnt">2018SACLS039</idno> <imprint> <date type="dateDefended">2018-02-21</date> </imprint> <authority type="institution">Université Paris-Saclay</authority> <authority type="institution">Université des Sciences et Techniques de Masuku (Gabon)</authority> <authority type="school">École doctorale Innovation thérapeutique : du fondamental à l'appliqué (Châtenay-Malabry, Hauts-de-Seine ; 2015-....)</authority> <authority type="supervisor">Pierre Champy</authority> <authority type="supervisor">Ahmed-Mehdi Beniddir</authority> <authority type="supervisor">Brice Serge Kumulungui</authority> <authority type="jury">Olivier Grovel [Président]</authority> <authority type="jury">Catherine Lavaud [Rapporteur]</authority> <authority type="jury">Gérald Culioli [Rapporteur]</authority> <authority type="jury">Séverine Derbré</authority> <authority type="jury">Raphaël Bikanga</authority> </monogr> </biblStruct> </sourceDesc> <profileDesc> <langUsage> <language ident="fr">French</language> </langUsage> <textClass> <keywords scheme="author"> <term xml:lang="en">Molecular networking</term> <term xml:lang="en">Malaria</term> <term xml:lang="en">Indole monoterpene alkaloids</term> <term xml:lang="en">Gelesemiaceae</term> <term xml:lang="en">Hplc-Ms/ms</term> <term xml:lang="en">Apocynaceae</term> <term xml:lang="fr">Paludisme</term> <term xml:lang="fr">Alcaloïdes indolomonoterpéniques</term> <term xml:lang="fr">Apocynaceae</term> <term xml:lang="fr">Clhp-Ms/ms</term> <term xml:lang="fr">Gelsemiacae</term> <term xml:lang="fr">Réseaux moléculaires</term> </keywords> <classCode scheme="halDomain" n="chim.ther">Chemical Sciences/Medicinal Chemistry</classCode> <classCode scheme="halTypology" n="THESE">Theses</classCode> </textClass> <abstract xml:lang="en"> <p>The chemical study of 11 Gabonese plant species, some being used in traditional medicine, was performed in search of antiplasmodial compounds with new structures. Two Apocynaceae (Pleiocarpa mutica Benth., Callichilia inaequalis Stapf) and a Gelsemiaceae (Mostuea brunonis Didr.) were more specifically investigated, using LC-MS/MS data in a dereplicative approach based on the “molecular networking” strategy, with an annotation performed using an “in-house” monoterpene indole alkaloids database (MIADB). This approach was used to guide the isolation of original alkaloids, in terms of substitution patterns or of linkage. From the stem bark of P. mutica, 7 previously undescribed bis-indoles were obtained: five are bis-aspidofractanes, four of them being linked by a methylene bridge (pleiokomenines A-D); Two are aspidofractane-eburnane dimers analogous to pleiomutine.The twigs and roots of C. inaequalis yielded 2 new bis-indoles analogous to criophylline, among which one is the first natural sulfate-bearing indole monoterpene. Inaequalisine A, the first monomeric indole monoterpene linked to a phenylpropene moiety by a C-C linkage was also obtained.The study of the twigs and leaves of M. brunonis lead to 4 new compounds: A monomeric sarpagine (16-epi-methylester-panarine) and 3 unknown bis-vobasines which constituting monomers are linked by a sulfide bridge (theionbrunonines A-C).Known compounds were also isolated, some of which were previously undescribed in the genera studied here. Several of the new molecules exhibited antiplasmodial in vitro activity in the micromolar range against a chloroquine-resistant strain of P. falciparum.</p> </abstract> <abstract xml:lang="fr"> <p>L’étude chimique de 11 plantes du Gabon, dont certaines utilisées en médecine traditionnelle, a été réalisée à la recherche de composés antiplasmodiaux de structures nouvelles. Deux Apocynaceae (Pleiocarpa mutica Benth., Callichilia inaequalis Stapf) et une Gelsemiaceae (Mostuea brunonis Didr.) ont été plus spécifiquement étudiées, via une stratégie de déréplication fondée sur des réseaux moléculaires générés à partir de données CLHP-MS/MS (Molecular Networking) et annotés avec une base de données d’alcaloïdes indolomonoterpéniques mise au point au laboratoire (MIADB). Cette investigation a guidé un travail de fractionnement et d’isolement, qui a permis l’obtention d’alcaloïdes indolomonoterpéniques très originaux, en termes de décorations ou de modes d’assemblage.Des écorces de tiges de P. mutica, 7 dimères indolomonoterpéniques non décrits dans la littérature ont été obtenus : 5 sont des bis-aspidofractanes dont 4 sont reliés par un pont méthylène (pléiokomenines A-D) ; deux sont des dimères du type aspidofractane-éburnamine, analogues de la pléiomutine.Les tiges et les racines de C. inaequalis ont livré 2 bis-indoles nouveaux, analogues de la criophylline, dont le premier porteur d’un sulfate dans cette classe d’alcaloïdes, ainsi que l’inaequalisine A, premier indolomonoterpène monomérique lié à un reste phénylpropène via une liaison C-C.L’étude des tiges et des feuilles de M. brunonis a conduit à l’isolement de quatre nouveaux composés : un monomère de type sarpagine (16-epi-méthylester-panarine) et 3 dimères bis-vobasines inédits à pont sulfide (théionbrunonines A-C). Des molécules connues, mais pas toujours identifiées dans les genres étudiés, ont également été isolées. Plusieurs des composés nouveaux présentent une activité antiplasmodiale de l’ordre du µM in vitro sur une souche de Plasmodium falciparum chloroquino-résistante.</p> </abstract> </profileDesc> </hal></record>Pour manipuler ce document sous Unix (Dilib)
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