Cargando…
A SNAI2-PEAK1-INHBA stromal axis drives progression and lapatinib resistance in HER2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers
Intercellular mechanisms by which the stromal microenvironment contributes to solid tumor progression and targeted therapy resistance remain poorly understood, presenting significant clinical hurdles. PEAK1 (Pseudopodium-Enriched Atypical Kinase One) is an actin cytoskeleton- and focal adhesion-asso...
| Autores principales: | , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Nature Publishing Group UK
2021
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8376636/ https://www.ncbi.nlm.nih.gov/pubmed/34239043 http://dx.doi.org/10.1038/s41388-021-01906-2 |
| _version_ | 1783740507562704896 |
|---|---|
| author | Hamalian, Sarkis Güth, Robert Runa, Farhana Sanchez, Francesca Vickers, Eric Agajanian, Megan Molnar, Justin Nguyen, Tuan Gamez, Joshua Humphries, Jonathan D. Nayak, Anupma Humphries, Martin J. Tchou, Julia Zervantonakis, Ioannis K. Kelber, Jonathan A. |
| author_facet | Hamalian, Sarkis Güth, Robert Runa, Farhana Sanchez, Francesca Vickers, Eric Agajanian, Megan Molnar, Justin Nguyen, Tuan Gamez, Joshua Humphries, Jonathan D. Nayak, Anupma Humphries, Martin J. Tchou, Julia Zervantonakis, Ioannis K. Kelber, Jonathan A. |
| author_sort | Hamalian, Sarkis |
| collection | PubMed |
| description | Intercellular mechanisms by which the stromal microenvironment contributes to solid tumor progression and targeted therapy resistance remain poorly understood, presenting significant clinical hurdles. PEAK1 (Pseudopodium-Enriched Atypical Kinase One) is an actin cytoskeleton- and focal adhesion-associated pseudokinase that promotes cell state plasticity and cancer metastasis by mediating growth factor-integrin signaling crosstalk. Here, we determined that stromal PEAK1 expression predicts poor outcomes in HER2-positive breast cancers high in SNAI2 expression and enriched for MSC content. Specifically, we identified that the fibroblastic stroma in HER2-positive breast cancer patient tissue stains positive for both nuclear SNAI2 and cytoplasmic PEAK1. Furthermore, mesenchymal stem cells (MSCs) and cancer-associated fibroblasts (CAFs) express high PEAK1 protein levels and potentiate tumorigenesis, lapatinib resistance and metastasis of HER2-positive breast cancer cells in a PEAK1-dependent manner. Analysis of PEAK1-dependent secreted factors from MSCs revealed INHBA/activin-A as a necessary factor in the conditioned media of PEAK1-expressing MSCs that promotes lapatinib resistance. Single-cell CycIF analysis of MSC-breast cancer cell co-cultures identified enrichment of p-Akt(high)/p-gH2AX(low), MCL1(high)/p-gH2AX(low) and GRP78(high)/VIM(high) breast cancer cell subpopulations by the presence of PEAK1-expressing MSCs and lapatinib treatment. Bioinformatic analyses on a PEAK1-centric stroma-tumor cell gene set and follow-up immunostaining of co-cultures predict targeting antiapoptotic and stress pathways as a means to improve targeted therapy responses and patient outcomes in HER2-positive breast cancer and other stroma-rich malignancies. These data provide the first evidence that PEAK1 promotes tumorigenic phenotypes through a previously unrecognized SNAI2-PEAK1-INHBA stromal cell axis. |
| format | Online Article Text |
| id | pubmed-8376636 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2021 |
| publisher | Nature Publishing Group UK |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-83766362021-09-02 A SNAI2-PEAK1-INHBA stromal axis drives progression and lapatinib resistance in HER2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers Hamalian, Sarkis Güth, Robert Runa, Farhana Sanchez, Francesca Vickers, Eric Agajanian, Megan Molnar, Justin Nguyen, Tuan Gamez, Joshua Humphries, Jonathan D. Nayak, Anupma Humphries, Martin J. Tchou, Julia Zervantonakis, Ioannis K. Kelber, Jonathan A. Oncogene Article Intercellular mechanisms by which the stromal microenvironment contributes to solid tumor progression and targeted therapy resistance remain poorly understood, presenting significant clinical hurdles. PEAK1 (Pseudopodium-Enriched Atypical Kinase One) is an actin cytoskeleton- and focal adhesion-associated pseudokinase that promotes cell state plasticity and cancer metastasis by mediating growth factor-integrin signaling crosstalk. Here, we determined that stromal PEAK1 expression predicts poor outcomes in HER2-positive breast cancers high in SNAI2 expression and enriched for MSC content. Specifically, we identified that the fibroblastic stroma in HER2-positive breast cancer patient tissue stains positive for both nuclear SNAI2 and cytoplasmic PEAK1. Furthermore, mesenchymal stem cells (MSCs) and cancer-associated fibroblasts (CAFs) express high PEAK1 protein levels and potentiate tumorigenesis, lapatinib resistance and metastasis of HER2-positive breast cancer cells in a PEAK1-dependent manner. Analysis of PEAK1-dependent secreted factors from MSCs revealed INHBA/activin-A as a necessary factor in the conditioned media of PEAK1-expressing MSCs that promotes lapatinib resistance. Single-cell CycIF analysis of MSC-breast cancer cell co-cultures identified enrichment of p-Akt(high)/p-gH2AX(low), MCL1(high)/p-gH2AX(low) and GRP78(high)/VIM(high) breast cancer cell subpopulations by the presence of PEAK1-expressing MSCs and lapatinib treatment. Bioinformatic analyses on a PEAK1-centric stroma-tumor cell gene set and follow-up immunostaining of co-cultures predict targeting antiapoptotic and stress pathways as a means to improve targeted therapy responses and patient outcomes in HER2-positive breast cancer and other stroma-rich malignancies. These data provide the first evidence that PEAK1 promotes tumorigenic phenotypes through a previously unrecognized SNAI2-PEAK1-INHBA stromal cell axis. Nature Publishing Group UK 2021-07-08 2021 /pmc/articles/PMC8376636/ /pubmed/34239043 http://dx.doi.org/10.1038/s41388-021-01906-2 Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) . |
| spellingShingle | Article Hamalian, Sarkis Güth, Robert Runa, Farhana Sanchez, Francesca Vickers, Eric Agajanian, Megan Molnar, Justin Nguyen, Tuan Gamez, Joshua Humphries, Jonathan D. Nayak, Anupma Humphries, Martin J. Tchou, Julia Zervantonakis, Ioannis K. Kelber, Jonathan A. A SNAI2-PEAK1-INHBA stromal axis drives progression and lapatinib resistance in HER2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers |
| title | A SNAI2-PEAK1-INHBA stromal axis drives progression and lapatinib resistance in HER2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers |
| title_full | A SNAI2-PEAK1-INHBA stromal axis drives progression and lapatinib resistance in HER2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers |
| title_fullStr | A SNAI2-PEAK1-INHBA stromal axis drives progression and lapatinib resistance in HER2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers |
| title_full_unstemmed | A SNAI2-PEAK1-INHBA stromal axis drives progression and lapatinib resistance in HER2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers |
| title_short | A SNAI2-PEAK1-INHBA stromal axis drives progression and lapatinib resistance in HER2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers |
| title_sort | snai2-peak1-inhba stromal axis drives progression and lapatinib resistance in her2-positive breast cancer by supporting subpopulations of tumor cells positive for antiapoptotic and stress signaling markers |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8376636/ https://www.ncbi.nlm.nih.gov/pubmed/34239043 http://dx.doi.org/10.1038/s41388-021-01906-2 |
| work_keys_str_mv | AT hamaliansarkis asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT guthrobert asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT runafarhana asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT sanchezfrancesca asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT vickerseric asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT agajanianmegan asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT molnarjustin asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT nguyentuan asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT gamezjoshua asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT humphriesjonathand asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT nayakanupma asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT humphriesmartinj asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT tchoujulia asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT zervantonakisioannisk asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT kelberjonathana asnai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT hamaliansarkis snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT guthrobert snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT runafarhana snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT sanchezfrancesca snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT vickerseric snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT agajanianmegan snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT molnarjustin snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT nguyentuan snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT gamezjoshua snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT humphriesjonathand snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT nayakanupma snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT humphriesmartinj snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT tchoujulia snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT zervantonakisioannisk snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers AT kelberjonathana snai2peak1inhbastromalaxisdrivesprogressionandlapatinibresistanceinher2positivebreastcancerbysupportingsubpopulationsoftumorcellspositiveforantiapoptoticandstresssignalingmarkers |