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LIPG-promoted lipid storage mediates adaptation to oxidative stress in breast cancer

Authors :
Cadenas, Cristina
Vosbeck, Sonja
Edlund, Karolina
Grgas, Katharina
Madjar, Katrin
Hellwig, Birte
Adawy, Alshaimaa
Glotzbach, Annika
Stewart, Joanna D.
Lesjak, Michaela S.
Franckenstein, Dennis
Claus, Maren
Hayen, Heiko
Schriewer, Alexander
Gianmoena, Kathrin
Thaler, Sonja
Schmidt, Marcus
Micke, Patrick
Ponten, Fredrik
Mardinoglu, Adil
Zhang, Cheng
Käfferlein, Keiko U.
Watzl, Carsten
Frank, Sasa
Rahnenfuhrer, Jörg
Marchan, Rosemarie
Hengstler, Jan G.
Cadenas, Cristina
Vosbeck, Sonja
Edlund, Karolina
Grgas, Katharina
Madjar, Katrin
Hellwig, Birte
Adawy, Alshaimaa
Glotzbach, Annika
Stewart, Joanna D.
Lesjak, Michaela S.
Franckenstein, Dennis
Claus, Maren
Hayen, Heiko
Schriewer, Alexander
Gianmoena, Kathrin
Thaler, Sonja
Schmidt, Marcus
Micke, Patrick
Ponten, Fredrik
Mardinoglu, Adil
Zhang, Cheng
Käfferlein, Keiko U.
Watzl, Carsten
Frank, Sasa
Rahnenfuhrer, Jörg
Marchan, Rosemarie
Hengstler, Jan G.
Publication Year :
2019

Abstract

Endothelial lipase (LIPG) is a cell surface associated lipase that displays phospholipase A1 activity towards phosphatidylcholine present in high-density lipoproteins (HDL). LIPG was recently reported to be expressed in breast cancer and to support proliferation, tumourigenicity and metastasis. Here we show that severe oxidative stress leading to AMPK activation triggers LIPG upregulation, resulting in intracellular lipid droplet accumulation in breast cancer cells, which supports survival. Neutralizing oxidative stress abrogated LIPG upregulation and the concomitant lipid storage. In human breast cancer, high LIPG expression was observed in a limited subset of tumours and was significantly associated with shorter metastasis-free survival in node-negative, untreated patients. Moreover, expression of PLIN2 and TXNRD1 in these tumours indicated a link to lipid storage and oxidative stress. Altogether, our findings reveal a previously unrecognized role for LIPG in enabling oxidative stress-induced lipid droplet accumulation in tumour cells that protects against oxidative stress, and thus supports tumour progression.<br />QC 20190423

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1233547439
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1002.ijc.32138