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A combination of trastuzumab and BAG-1 inhibition synergistically targets HER2 positive breast cancer cells

A combination of trastuzumab and BAG-1 inhibition synergistically targets HER2 positive breast cancer cells
A combination of trastuzumab and BAG-1 inhibition synergistically targets HER2 positive breast cancer cells
Treatment of HER2+ breast cancer with trastuzumab is effective and combination anti-HER2 therapies have demonstrated benefit over monotherapy in the neoadjuvant and metastatic settings. This study investigated the therapeutic potential of targeting the BAG-1 protein co-chaperone in trastuzumab-responsive or -resistant cells. In the METABRIC dataset, BAG-1 mRNA was significantly elevated in HER2+ breast tumors and predicted overall survival in a multivariate analysis (HR = 0.81; p = 0.022). In a breast cell line panel, BAG-1 protein was increased in HER2+ cells and was required for optimal growth as shown by siRNA knockdown. Overexpression of BAG-1S in HER2+ SKBR3 cells blocked growth inhibition by trastuzumab, whereas overexpression of a mutant BAG-1S protein (BAG-1S H3AB), defective in binding HSC70, potentiated the effect of trastuzumab. Injection of a Tet-On SKBR3 clone, induced to overexpress myc-BAG-1S into the mammary fat pads of immunocompromised mice, resulted in 2-fold larger tumors compared to uninduced controls. Induction of myc-BAG-1S expression in two Tet-On SKBR3 clones attenuated growth inhibition by trastuzumab in vitro. Targeting endogenous BAG-1 by siRNA enhanced growth inhibition of SKBR3 and BT474 cells by trastuzumab, while BAG-1 protein-protein interaction inhibitor (Thio-S or Thio-2) plus trastuzumab combination treatment synergistically attenuated growth. In BT474 cells this reduced protein synthesis, caused G1/S cell cycle arrest and targeted the ERK and AKT signaling pathways. In a SKBR3 subpopulation with acquired resistance to trastuzumab BAG-1 targeting remained effective and either Thio-2 or BAG-1 siRNA reduced growth more compared to trastuzumab-responsive parental cells. In summary, targeting BAG-1 function in combination with anti-HER2 therapy might prove beneficial.
breast cancer, BAG-1, HER2, trastuzumab, resistance
1949-2553
1-14
Papadakis, E.S.
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Robson, N.H.
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Yeomans, A.
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Bailey, S.
b512093c-6d13-40d0-9e1e-39fd0cd0acb1
Laversin, S.
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Beers, S.
a02548be-3ffd-41ab-9db8-d6e8c3b499a2
Sayan, A.
d1dbbcad-9c53-47c1-8b7e-1b45cc56e077
Ashton-Key, M.
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Schwaiger, S.
c80a64c2-def9-4955-99a0-c5e039ffe7af
Stuppner, H.
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Troppmair, J.
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Packham, Graham
fdabe56f-2c58-469c-aadf-38878f233394
Cutress, Ramsey
68ae4f86-e8cf-411f-a335-cdba51797406
Papadakis, E.S.
ac2d55b0-7788-4157-a6c6-d8c87bcfdbe0
Robson, N.H.
f3c652a5-c629-467a-85ff-bddf95e54044
Yeomans, A.
a52011e7-ca7b-445b-b92c-4bcb18881a4e
Bailey, S.
b512093c-6d13-40d0-9e1e-39fd0cd0acb1
Laversin, S.
e9122da5-bfb0-4260-b7db-659fb855e898
Beers, S.
a02548be-3ffd-41ab-9db8-d6e8c3b499a2
Sayan, A.
d1dbbcad-9c53-47c1-8b7e-1b45cc56e077
Ashton-Key, M.
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Schwaiger, S.
c80a64c2-def9-4955-99a0-c5e039ffe7af
Stuppner, H.
8e33fb51-8e9b-46fd-b4ef-e0197f2946fb
Troppmair, J.
8cc89b0f-efd0-480f-8034-235fcc4dc475
Packham, Graham
fdabe56f-2c58-469c-aadf-38878f233394
Cutress, Ramsey
68ae4f86-e8cf-411f-a335-cdba51797406

Papadakis, E.S., Robson, N.H., Yeomans, A., Bailey, S., Laversin, S., Beers, S., Sayan, A., Ashton-Key, M., Schwaiger, S., Stuppner, H., Troppmair, J., Packham, Graham and Cutress, Ramsey (2016) A combination of trastuzumab and BAG-1 inhibition synergistically targets HER2 positive breast cancer cells. Oncotarget, 1-14. (doi:10.18632/oncotarget.7944). (PMID:26958811)

Record type: Article

Abstract

Treatment of HER2+ breast cancer with trastuzumab is effective and combination anti-HER2 therapies have demonstrated benefit over monotherapy in the neoadjuvant and metastatic settings. This study investigated the therapeutic potential of targeting the BAG-1 protein co-chaperone in trastuzumab-responsive or -resistant cells. In the METABRIC dataset, BAG-1 mRNA was significantly elevated in HER2+ breast tumors and predicted overall survival in a multivariate analysis (HR = 0.81; p = 0.022). In a breast cell line panel, BAG-1 protein was increased in HER2+ cells and was required for optimal growth as shown by siRNA knockdown. Overexpression of BAG-1S in HER2+ SKBR3 cells blocked growth inhibition by trastuzumab, whereas overexpression of a mutant BAG-1S protein (BAG-1S H3AB), defective in binding HSC70, potentiated the effect of trastuzumab. Injection of a Tet-On SKBR3 clone, induced to overexpress myc-BAG-1S into the mammary fat pads of immunocompromised mice, resulted in 2-fold larger tumors compared to uninduced controls. Induction of myc-BAG-1S expression in two Tet-On SKBR3 clones attenuated growth inhibition by trastuzumab in vitro. Targeting endogenous BAG-1 by siRNA enhanced growth inhibition of SKBR3 and BT474 cells by trastuzumab, while BAG-1 protein-protein interaction inhibitor (Thio-S or Thio-2) plus trastuzumab combination treatment synergistically attenuated growth. In BT474 cells this reduced protein synthesis, caused G1/S cell cycle arrest and targeted the ERK and AKT signaling pathways. In a SKBR3 subpopulation with acquired resistance to trastuzumab BAG-1 targeting remained effective and either Thio-2 or BAG-1 siRNA reduced growth more compared to trastuzumab-responsive parental cells. In summary, targeting BAG-1 function in combination with anti-HER2 therapy might prove beneficial.

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Accepted/In Press date: 13 February 2016
Published date: 6 March 2016
Keywords: breast cancer, BAG-1, HER2, trastuzumab, resistance
Organisations: Cancer Sciences

Identifiers

Local EPrints ID: 390105
URI: http://eprints.soton.ac.uk/id/eprint/390105
DOI: doi:10.18632/oncotarget.7944
ISSN: 1949-2553
PURE UUID: 828205f7-251c-4337-8302-47554fc2fefd
ORCID for S. Beers: ORCID iD orcid.org/0000-0002-3765-3342
ORCID for A. Sayan: ORCID iD orcid.org/0000-0002-5291-1485
ORCID for Graham Packham: ORCID iD orcid.org/0000-0002-9232-5691

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Date deposited: 18 Mar 2016 17:18
Last modified: 15 Mar 2024 03:37

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Contributors

Author: E.S. Papadakis
Author: N.H. Robson
Author: A. Yeomans
Author: S. Bailey
Author: S. Laversin
Author: S. Beers ORCID iD
Author: A. Sayan ORCID iD
Author: M. Ashton-Key
Author: S. Schwaiger
Author: H. Stuppner
Author: J. Troppmair
Author: Graham Packham ORCID iD
Author: Ramsey Cutress

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