Development of alkyl glycerone phosphate synthase inhibitors: Structure-activity relationship and effects on ether lipids and epithelial-mesenchymal transition in cancer cells

Development of alkyl glycerone phosphate synthase inhibitors: Structure-activity relationship and effects on ether lipids and epithelial-mesenchymal transition in cancer cells

In aggressive tumors, alkylglyceronephosphate synthase (AGPS) controls cellular ether phospholipid utilization and metabolism to promote cancer cell proliferation and motility. SAR studies on the first-in-class AGPS inhibitor 1, discovered by our group, led to the 2,6-difluoro analog 2i which showed...

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Veröffentlicht in:European journal of medicinal chemistry 2019-02, Vol.163, p.722-735
Hauptverfasser: Stazi, Giulia, Battistelli, Cecilia, Piano, Valentina, Mazzone, Roberta, Marrocco, Biagina, Marchese, Sara, Louie, Sharon M., Zwergel, Clemens, Antonini, Lorenzo, Patsilinakos, Alexandros, Ragno, Rino, Viviano, Monica, Sbardella, Gianluca, Ciogli, Alessia, Fabrizi, Giancarlo, Cirilli, Roberto, Strippoli, Raffaele, Marchetti, Alessandra, Tripodi, Marco, Nomura, Daniel K., Mattevi, Andrea, Mai, Antonello, Valente, Sergio
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AGPS inhibitors
Cancer
E-cadherin
Ether lipids
Snail
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container_title European journal of medicinal chemistry
container_volume 163
creator Stazi, Giulia
Battistelli, Cecilia
Piano, Valentina
Mazzone, Roberta
Marrocco, Biagina
Marchese, Sara
Louie, Sharon M.
Zwergel, Clemens
Antonini, Lorenzo
Patsilinakos, Alexandros
Ragno, Rino
Viviano, Monica
Sbardella, Gianluca
Ciogli, Alessia
Fabrizi, Giancarlo
Cirilli, Roberto
Strippoli, Raffaele
Marchetti, Alessandra
Tripodi, Marco
Nomura, Daniel K.
Mattevi, Andrea
Mai, Antonello
Valente, Sergio
description In aggressive tumors, alkylglyceronephosphate synthase (AGPS) controls cellular ether phospholipid utilization and metabolism to promote cancer cell proliferation and motility. SAR studies on the first-in-class AGPS inhibitor 1, discovered by our group, led to the 2,6-difluoro analog 2i which showed higher binding affinity than 1in vitro. In 231MFP cancer cells, 2i reduced ether lipids levels and cell migration rate. When tested in PC-3 and MDA-MB-231 cancer cells, 2i specifically impaired epithelial to mesenchymal transition (EMT) by modulating E-cadherin, Snail and MMP2 expression levels. Moreover, the combination of siRNAs against AGPS and 2i provided no additive effect, confirming that the modulation of 2i on EMT specifically relies on AGPS inhibition. Finally, this compound also affected cancer cell proliferation especially in MDA-MB-231 cells expressing higher AGPS level, whereas it provided negligible effects on MeT5A, a non-tumorigenic cell line, thus showing cancer specificity. [Display omitted] •AGPS enables the acyl/alkyl exchange of acyl-dihydroxyacetone phosphate.•AGPS is up-regulated across different types of aggressive and metastatic tumors.•AGPS inactivation reduce ether lipids and oncogenic signaling molecules levels.•AGPS inhibitor 2i decreases ether lipids, cell migration and survival.•Inhibitor 2i specifically impaired EMT through E-cadherine, Snail, Mmp2 modulation.
doi_str_mv 10.1016/j.ejmech.2018.11.050
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subjects AGPS inhibitors
Cancer
E-cadherin
Ether lipids
Snail
title Development of alkyl glycerone phosphate synthase inhibitors: Structure-activity relationship and effects on ether lipids and epithelial-mesenchymal transition in cancer cells
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