Novel glycolipid agents for killing cisplatin-resistant human epithelial ovarian cancer cells

被引:8
作者
Moraya, Amani I. [1 ]
Ali, Jennifer L. [1 ]
Samadder, Pranati [1 ]
Liang, Lisa [1 ]
Morrison, Ludivine Coudiere [1 ]
Werbowetski-Ogilvie, Tamra E. [1 ]
Ogunsina, Makanjuola [2 ]
Schweizer, Frank [2 ]
Arthur, Gilbert [1 ]
Nachtigal, Mark W. [1 ,3 ,4 ,5 ]
机构
[1] Univ Manitoba, Dept Biochem & Med Genet, Room 333 BMSB,745 Bannatyne Ave, Winnipeg, MB R3E 0W9, Canada
[2] Univ Manitoba, Dept Chem, Winnipeg, MB, Canada
[3] Univ Manitoba, Dept Obstet Gynecol & Reprod Sci, Winnipeg, MB, Canada
[4] CancerCare Manitoba, Res Inst Oncol & Hematol, Winnipeg, MB, Canada
[5] Manitoba Ovarian Canc Outcome MOCO Study Grp, Winnipeg, MB, Canada
来源
JOURNAL OF EXPERIMENTAL & CLINICAL CANCER RESEARCH | 2017年 / 36卷
基金
加拿大自然科学与工程研究理事会;
关键词
Ovarian cancer; Drug-resistance; Glycosylated anti-tumour ether lipid; Spheroid; ANTITUMOR ETHER LIPIDS; CYTOTOXIC PROPERTIES; GENE-EXPRESSION; LINES; CHEMORESISTANCE; PACLITAXEL; SCAFFOLD; PATHWAY; CULTURE; EXPLORE;
D O I
10.1186/s13046-017-0538-9
中图分类号
R73 [肿瘤学];
学科分类号
100214 ;
摘要
Background: Chemotherapy resistance is one of the major factors contributing to mortality from human epithelial ovarian cancer (EOC). Identifying drugs that can effectively kill chemotherapy- resistant EOC cells would be a major advance in reducing mortality. Glycosylated antitumour ether lipids (GAELs) are synthetic glycolipids that are cytotoxic to a wide range of cancer cells. They appear to induce cancer cell death in an apoptosis-independent manner. Methods: Herein, the effectiveness of two GAELs, GLN and MO-101, in killing chemotherapy-sensitive and -resistant EOC cells lines and primary cell samples was tested using monolayer, non-adherent aggregate, and non-adherent spheroid cultures. Results: Our results show that EOC cells exhibit a differential sensitivity to the GAELs. Strikingly, both GAELs are capable of inducing EOC cell death in chemotherapy-sensitive and -resistant cells grown as monolayer or non-adherent cultures. Mechanistic studies provide evidence that apoptotic-cell death (caspase activation) contributes to, but is not completely responsible for, GAEL-induced cell killing in the A2780-cp EOC cell line, but not primary EOC cell samples. Conclusions: Studies using primary EOC cell samples supports previously published work showing a GAEL-induced caspase-independent mechanism of death. GAELs hold promise for development as novel compounds to combat EOC mortality due to chemotherapy resistance.
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页数:13
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共 34 条
[1]   Glycosylated Antitumor Ether Lipids: Activity and Mechanism of Action [J].
Arthur, Gilbert ;
Bittman, Robert .
ANTI-CANCER AGENTS IN MEDICINAL CHEMISTRY, 2014, 14 (04) :592-606
[2]   Opportunities and challenges in ovarian cancer research, a perspective from the 11th Ovarian cancer action/HHMT Forum, Lake Como, March 2007 [J].
Ashworth, Alan ;
Balkwill, Frances ;
Bast, Robert C. ;
Berek, Jonathan S. ;
Kaye, Allyson ;
Boyd, Jeffrey A. ;
Mills, Gordon ;
Weinstein, John N. ;
Woolley, Katie ;
Workman, Paul .
GYNECOLOGIC ONCOLOGY, 2008, 108 (03) :652-657
[3]   Ovarian Cancer Cell Line Panel (OCCP): Clinical Importance of In Vitro Morphological Subtypes [J].
Beaufort, Corine M. ;
Helmijr, Jean C. A. ;
Piskorz, Anna M. ;
Hoogstraat, Marlous ;
Ruigrok-Ritstier, Kirsten ;
Besselink, Nicolle ;
Murtaza, Muhammed ;
van IJcken, Wilfred F. J. ;
Heine, Anouk A. J. ;
Smid, Marcel ;
Koudijs, Marco J. ;
Brenton, James D. ;
Berns, Els M. J. J. ;
Helleman, Jozien .
PLOS ONE, 2014, 9 (09)
[4]   Rethinking ovarian cancer II: reducing mortality from high-grade serous ovarian cancer [J].
Bowtell, David D. ;
Boehm, Steffen ;
Ahmed, Ahmed A. ;
Aspuria, Paul-Joseph ;
Bast, Robert C., Jr. ;
Beral, Valerie ;
Berek, Jonathan S. ;
Birrer, Michael J. ;
Blagden, Sarah ;
Bookman, Michael A. ;
Brenton, James D. ;
Chiappinelli, Katherine B. ;
Martins, Filipe Correia ;
Coukos, George ;
Drapkin, Ronny ;
Edmondson, Richard ;
Fotopoulou, Christina ;
Gabra, Hani ;
Galon, Jerome ;
Gourley, Charlie ;
Heong, Valerie ;
Huntsman, David G. ;
Iwanicki, Marcin ;
Karlan, Beth Y. ;
Kaye, Allyson ;
Lengyel, Ernst ;
Levine, Douglas A. ;
Lu, Karen H. ;
McNeish, Iain A. ;
Menon, Usha ;
Narod, Steven A. ;
Nelson, Brad H. ;
Nephew, Kenneth P. ;
Pharoah, Paul ;
Powell, Daniel J., Jr. ;
Ramos, Pilar ;
Romero, Iris L. ;
Scott, Clare L. ;
Sood, Anil K. ;
Stronach, Euan A. ;
Balkwill, Frances R. .
NATURE REVIEWS CANCER, 2015, 15 (11) :668-679
[5]   ANALOGS OF ALKYLLYSOPHOSPHOLIPIDS - CHEMISTRY, EFFECTS ON THE MOLECULAR-LEVEL AND THEIR CONSEQUENCES FOR NORMAL AND MALIGNANT-CELLS [J].
BRACHWITZ, H ;
VOLLGRAF, C .
PHARMACOLOGY & THERAPEUTICS, 1995, 66 (01) :39-82
[6]   Evaluation of characteristics of CD44+ CD117+ ovarian cancer stem cells in three dimensional basement membrane extract scaffold versus two dimensional monocultures [J].
Chen, Junsong ;
Wang, Jing ;
Chen, Dengyu ;
Yang, Jie ;
Yang, Cuiping ;
Zhang, Yunxia ;
Zhang, Hongyi ;
Dou, Jun .
BMC CELL BIOLOGY, 2013, 14
[7]   Latest research and treatment of advanced-stage epithelial ovarian cancer [J].
Coleman, Robert L. ;
Monk, Bradley J. ;
Sood, Anil K. ;
Herzog, Thomas J. .
NATURE REVIEWS CLINICAL ONCOLOGY, 2013, 10 (04) :211-224
[8]   Sensitivity and resistance to treatment in the primary management of epithelial ovarian cancer [J].
Colombo, Pierre-Emmanuel ;
Fabbro, Michel ;
Theillet, Charles ;
Bibeau, Frederic ;
Rouanet, Philippe ;
Ray-Coquard, Isabelle .
CRITICAL REVIEWS IN ONCOLOGY HEMATOLOGY, 2014, 89 (02) :207-216
[9]   Modeling platinum sensitive and resistant high-grade serous ovarian cancer: development and applications of experiment alsystems [J].
Cunnea, Paula ;
Stronach, Euan A. .
FRONTIERS IN ONCOLOGY, 2014, 4
[10]   Kallikrein-Related Peptidase 7 Promotes Multicellular Aggregation via the α5β1 Integrin Pathway and Paclitaxel Chemoresistance in Serous Epithelial Ovarian Carcinoma [J].
Dong, Ying ;
Tan, Olivia L. ;
Loessner, Daniela ;
Stephens, Carson ;
Walpole, Carina ;
Boyle, Glen M. ;
Parsons, Peter G. ;
Clements, Judith A. .
CANCER RESEARCH, 2010, 70 (07) :2624-2633
1234