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Functional importance for developmental regulation of sterol biosynthesis in Acanthamoeba castellanii.


ABSTRACT: The sterol metabolome of Acanthamoeba castellanii (Ac) yielded 25 sterols. Substrate screening of cloned AcCYP51 revealed obtusifoliol as the natural substrate which converts to ?8,14-sterol (<95%). The combination of [2H3-methyl]methionine incubation to intact cultures showing C28-ergosterol incorporates 2-2H atoms and C29-7-dehydroporiferasterol incorporates 5 2H-atoms, the natural distribution of sterols, CYP51 and previously published sterol methyltransferase (SMT) data indicate separate ?24(28)- and ?25(27)-olefin pathways to C28- and C29-sterol products from the protosterol cycloartenol. In cell-based culture, we observed a marked change in sterol compositions during the growth and encystment phases monitored microscopically and by trypan blue staining; trophozoites possess C28/C29-?5,7-sterols, viable encysted cells (mature cyst) possess mostly C29-?5-sterol and non-viable encysted cells possess C28/C29-?5,7-sterols that turnover variably from stress to 6-methyl aromatic sterols associated with changed membrane fluidity affording lysis. An incompatible fit of steroidal aromatics in membranes was confirmed using the yeast sterol auxotroph GL7. Only viable cysts, including those treated with inhibitor, can excyst into trophozoites. 25-Azacycloartanol or voriconazole that target SMT and CYP51, respectively, are potent enzyme inhibitors in the nanomolar range against the cloned enzymes and amoeba cells. At minimum amoebicidal concentration of inhibitor amoeboid cells rapidly convert to encysted cells unable to excyst. The correlation between stage-specific sterol compositions and the physiological effects of ergosterol biosynthesis inhibitors suggests that amoeba fitness is controlled mainly by developmentally-regulated changes in the phytosterol B-ring; paired interference in the ?5,7-sterol biosynthesis (to ?5,7) - metabolism (to ?5 or 6-methyl aromatic) congruence during cell proliferation and encystment could be a source of therapeutic intervention for Acanthamoeba infections.

SUBMITTER: Zhou W 

PROVIDER: S-EPMC6180906 | biostudies-literature | 2018 Oct

REPOSITORIES: biostudies-literature

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Functional importance for developmental regulation of sterol biosynthesis in Acanthamoeba castellanii.

Zhou Wenxu W   Warrilow Andrew G S AGS   Thomas Crista D CD   Ramos Emilio E   Parker Josie E JE   Price Claire L CL   Vanderloop Boden H BH   Fisher Paxtyn M PM   Loftis Michael D MD   Kelly Diane E DE   Kelly Steven L SL   Nes W David WD  

Biochimica et biophysica acta. Molecular and cell biology of lipids 20180722 10


The sterol metabolome of Acanthamoeba castellanii (Ac) yielded 25 sterols. Substrate screening of cloned AcCYP51 revealed obtusifoliol as the natural substrate which converts to ∆<sup>8,14</sup>-sterol (<95%). The combination of [<sup>2</sup>H<sub>3</sub>-methyl]methionine incubation to intact cultures showing C<sub>28</sub>-ergosterol incorporates 2-<sup>2</sup>H atoms and C<sub>29</sub>-7-dehydroporiferasterol incorporates 5 <sup>2</sup>H-atoms, the natural distribution of sterols, CYP51 and p  ...[more]

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