An Abeis procera - Derived tetracyclic triterpene containing a steroid-like core and a lactone side chain attenuates in vitro survival of both Fasciola hepatica and Schistosoma mansoni
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An Abeis procera - Derived tetracyclic triterpene containing a steroid-like core and a lactone side chain attenuates in vitro survival of both Fasciola hepatica and Schistosoma mansoni. / Whiteland, Helen; Chakroborty, Anand; Forde-Thomas, Josephine et al.
In: International Journal for Parasitology: Drugs and Drug Resistance, Vol. 8, No. 3, 01.12.2018, p. 465-474.Research output: Contribution to journal › Article › peer-review
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T1 - An Abeis procera - Derived tetracyclic triterpene containing a steroid-like core and a lactone side chain attenuates in vitro survival of both Fasciola hepatica and Schistosoma mansoni
AU - Whiteland, Helen
AU - Chakroborty, Anand
AU - Forde-Thomas, Josephine
AU - Crusco, Alessandra
AU - Cookson, Alan
AU - Hollinshead, Jackie
AU - Fenn, Caroline
AU - Bartholomew, Barbara
AU - Holdsworth, Peter A.
AU - Fisher, Maggie
AU - Nash, Robert J.
AU - Hoffmann, Karl
PY - 2018/12/1
Y1 - 2018/12/1
N2 - Two economically and biomedically important platyhelminth species, Fasciola hepatica (liver fluke) and Schistosoma mansoni (blood fluke), are responsible for the neglected tropical diseases (NTDs) fasciolosis and schistosomiasis. Due to the absence of prophylactic vaccines, these NTDs are principally managed by the single class chemotherapies triclabendazole (F. hepatica) and praziquantel (S. mansoni). Unfortunately, liver fluke resistance to triclabendazole has been widely reported and blood fluke insensitivity/resistance to praziquantel has been observed in both laboratory settings as well as in endemic communities. Therefore, the identification of new anthelmintics is necessary for the sustainable control of these NTDs in both animal and human populations. Here, continuing our work with phytochemicals, we isolated ten triterpenoids from the mature bark of Abies species and assessed their anthelmintic activities against F. hepatica and S. mansoni larval and adult lifecycle stages. Full 1H and 13C NMR-mediated structural elucidation of the two most active triterpenoids revealed that a tetracyclic steroid-like nucleus core and a lactone side chain are associated with the observed anthelmintic effects. When compared to representative mammalian cell lines (MDBK and HepG2), the most potent triterpenoid (700015; anthelmintic EC50s range from 0.7 μM–15.6 μM) displayed anthelmintic selectivity (selectivity indices for F. hepatica: 13 for newly excysted juveniles, 46 for immature flukes, 2 for mature flukes; selectivity indices for S. mansoni: 14 for schistosomula, 9 for immature flukes, 4 for adult males and 3 for adult females) and induced severe disruption of surface membranes in both liver and blood flukes. S. mansoni egg production, a process responsible for pathology in schistosomiasis, was also severely inhibited by 700015. Together, our results describe the structural elucidation of a novel broad acting anthelmintic triterpenoid and support further investigations developing this compound into more potent analogues for the control of both fasciolosis and schistosomiasis
AB - Two economically and biomedically important platyhelminth species, Fasciola hepatica (liver fluke) and Schistosoma mansoni (blood fluke), are responsible for the neglected tropical diseases (NTDs) fasciolosis and schistosomiasis. Due to the absence of prophylactic vaccines, these NTDs are principally managed by the single class chemotherapies triclabendazole (F. hepatica) and praziquantel (S. mansoni). Unfortunately, liver fluke resistance to triclabendazole has been widely reported and blood fluke insensitivity/resistance to praziquantel has been observed in both laboratory settings as well as in endemic communities. Therefore, the identification of new anthelmintics is necessary for the sustainable control of these NTDs in both animal and human populations. Here, continuing our work with phytochemicals, we isolated ten triterpenoids from the mature bark of Abies species and assessed their anthelmintic activities against F. hepatica and S. mansoni larval and adult lifecycle stages. Full 1H and 13C NMR-mediated structural elucidation of the two most active triterpenoids revealed that a tetracyclic steroid-like nucleus core and a lactone side chain are associated with the observed anthelmintic effects. When compared to representative mammalian cell lines (MDBK and HepG2), the most potent triterpenoid (700015; anthelmintic EC50s range from 0.7 μM–15.6 μM) displayed anthelmintic selectivity (selectivity indices for F. hepatica: 13 for newly excysted juveniles, 46 for immature flukes, 2 for mature flukes; selectivity indices for S. mansoni: 14 for schistosomula, 9 for immature flukes, 4 for adult males and 3 for adult females) and induced severe disruption of surface membranes in both liver and blood flukes. S. mansoni egg production, a process responsible for pathology in schistosomiasis, was also severely inhibited by 700015. Together, our results describe the structural elucidation of a novel broad acting anthelmintic triterpenoid and support further investigations developing this compound into more potent analogues for the control of both fasciolosis and schistosomiasis
KW - Abeis procera
KW - Abies grandis
KW - triterpenoid
KW - anthelmintic drug discovery
KW - neglected tropical diseases
KW - fasciola hepatica
KW - schistosoma mansoni
U2 - 10.1016/j.ijpddr.2018.10.009
DO - 10.1016/j.ijpddr.2018.10.009
M3 - Article
C2 - 30399512
VL - 8
SP - 465
EP - 474
JO - International Journal for Parasitology: Drugs and Drug Resistance
JF - International Journal for Parasitology: Drugs and Drug Resistance
SN - 2211-3207
IS - 3
ER -