TGFβ promotes YAP‐dependent AXL induction in mesenchymal‐type lung cancer cells

Through integration of multiple large database, two oncogenic signatures (YAP conserved and TGFβ‐up signatures) were commonly upregulated in the cancer cell lines with the mesenchymal properties. AXL, the expression of which is highly induced in EMT, contributes the doxorubicin resistance in EMT. Do...

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Veröffentlicht in:	Molecular oncology 2021-02, Vol.15 (2), p.679-696
Hauptverfasser:	Choi, Jeong‐Yun, Lee, Haeseung, Kwon, Eun‐Ji, Kong, Hyeon‐Joon, Kwon, Ok‐Seon, Cha, Hyuk‐Jin
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Sprache:	eng
Schlagworte:	Atorvastatin AXL Axl protein Cancer cells Cancer therapies Chemoresistance Chemotherapy Data analysis Deoxyribonucleic acid DNA doxorubicin EMT FDA approval Gene expression Genomes Growth factors Health aspects Immunotherapy Kinases Lung cancer MAP kinase Mesenchyme Metastases Metastasis Mortality Phosphorylation Protein interaction Proteins resistance Signal transduction South Korea Stem cells Survival analysis TGFβ‐SMAD4 Transcription factors Transforming growth factors Tyrosine YAP Yes-associated protein
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container_title	Molecular oncology
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creator	Choi, Jeong‐Yun Lee, Haeseung Kwon, Eun‐Ji Kong, Hyeon‐Joon Kwon, Ok‐Seon Cha, Hyuk‐Jin
description	Through integration of multiple large database, two oncogenic signatures (YAP conserved and TGFβ‐up signatures) were commonly upregulated in the cancer cell lines with the mesenchymal properties. AXL, the expression of which is highly induced in EMT, contributes the doxorubicin resistance in EMT. Doxorubicin treatment induced YAP‐dependent gene response and promoted AXL expression coordinated with TGFβ‐SMAD4. The acquisition of chemoresistance remains a major cause of cancer mortality due to the limited accessibility of targeted or immune therapies. However, given that severe alterations of molecular features during epithelial‐to‐mesenchymal transition (EMT) lead to acquired chemoresistance, emerging studies have focused on identifying targetable drivers associated with acquired chemoresistance. Particularly, AXL, a key receptor tyrosine kinase that confers resistance against targets and chemotherapeutics, is highly expressed in mesenchymal cancer cells. However, the underlying mechanism of AXL induction in mesenchymal cancer cells is poorly understood. Our study revealed that the YAP signature, which was highly enriched in mesenchymal‐type lung cancer, was closely correlated to AXL expression in 181 lung cancer cell lines. Moreover, using isogenic lung cancer cell pairs, we also found that doxorubicin treatment induced YAP nuclear translocation in mesenchymal‐type lung cancer cells to induce AXL expression. Additionally, the concurrent activation of TGFβ signaling coordinated YAP‐dependent AXL expression through SMAD4. These data suggest that crosstalk between YAP and the TGFβ/SMAD axis upon treatment with chemotherapeutics might be a promising target to improve chemosensitivity in mesenchymal‐type lung cancer.
doi_str_mv	10.1002/1878-0261.12857
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Our study revealed that the YAP signature, which was highly enriched in mesenchymal‐type lung cancer, was closely correlated to AXL expression in 181 lung cancer cell lines. Moreover, using isogenic lung cancer cell pairs, we also found that doxorubicin treatment induced YAP nuclear translocation in mesenchymal‐type lung cancer cells to induce AXL expression. Additionally, the concurrent activation of TGFβ signaling coordinated YAP‐dependent AXL expression through SMAD4. 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AXL, the expression of which is highly induced in EMT, contributes the doxorubicin resistance in EMT. Doxorubicin treatment induced YAP‐dependent gene response and promoted AXL expression coordinated with TGFβ‐SMAD4. The acquisition of chemoresistance remains a major cause of cancer mortality due to the limited accessibility of targeted or immune therapies. However, given that severe alterations of molecular features during epithelial‐to‐mesenchymal transition (EMT) lead to acquired chemoresistance, emerging studies have focused on identifying targetable drivers associated with acquired chemoresistance. Particularly, AXL, a key receptor tyrosine kinase that confers resistance against targets and chemotherapeutics, is highly expressed in mesenchymal cancer cells. However, the underlying mechanism of AXL induction in mesenchymal cancer cells is poorly understood. Our study revealed that the YAP signature, which was highly enriched in mesenchymal‐type lung cancer, was closely correlated to AXL expression in 181 lung cancer cell lines. Moreover, using isogenic lung cancer cell pairs, we also found that doxorubicin treatment induced YAP nuclear translocation in mesenchymal‐type lung cancer cells to induce AXL expression. Additionally, the concurrent activation of TGFβ signaling coordinated YAP‐dependent AXL expression through SMAD4. These data suggest that crosstalk between YAP and the TGFβ/SMAD axis upon treatment with chemotherapeutics might be a promising target to improve chemosensitivity in mesenchymal‐type lung cancer.</abstract><cop>United States</cop><pub>John Wiley & Sons, Inc</pub><pmid>33207077</pmid><doi>10.1002/1878-0261.12857</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0002-9947-4032</orcidid><orcidid>https://orcid.org/0000-0001-9277-2662</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Atorvastatin AXL Axl protein Cancer cells Cancer therapies Chemoresistance Chemotherapy Data analysis Deoxyribonucleic acid DNA doxorubicin EMT FDA approval Gene expression Genomes Growth factors Health aspects Immunotherapy Kinases Lung cancer MAP kinase Mesenchyme Metastases Metastasis Mortality Phosphorylation Protein interaction Proteins resistance Signal transduction South Korea Stem cells Survival analysis TGFβ‐SMAD4 Transcription factors Transforming growth factors Tyrosine YAP Yes-associated protein
title	TGFβ promotes YAP‐dependent AXL induction in mesenchymal‐type lung cancer cells
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