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Cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics

Breast cancer brain metastases remain a significant clinical problem. Chemotherapy is ineffective and a lack of treatment options result in poor patient outcomes. Targeted therapeutics have proven to be highly effective in primary breast cancer, but lack of molecular genomic characterization of meta...

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Autores principales: Bollig-Fischer, Aliccia, Michelhaugh, Sharon K., Wijesinghe, Priyanga, Dyson, Greg, Kruger, Adele, Palanisamy, Nallasivam, Choi, Lydia, Alosh, Baraa, Ali-Fehmi, Rouba, Mittal, Sandeep
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Impact Journals LLC 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4546491/
https://www.ncbi.nlm.nih.gov/pubmed/25970776
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author Bollig-Fischer, Aliccia
Michelhaugh, Sharon K.
Wijesinghe, Priyanga
Dyson, Greg
Kruger, Adele
Palanisamy, Nallasivam
Choi, Lydia
Alosh, Baraa
Ali-Fehmi, Rouba
Mittal, Sandeep
author_facet Bollig-Fischer, Aliccia
Michelhaugh, Sharon K.
Wijesinghe, Priyanga
Dyson, Greg
Kruger, Adele
Palanisamy, Nallasivam
Choi, Lydia
Alosh, Baraa
Ali-Fehmi, Rouba
Mittal, Sandeep
author_sort Bollig-Fischer, Aliccia
collection PubMed
description Breast cancer brain metastases remain a significant clinical problem. Chemotherapy is ineffective and a lack of treatment options result in poor patient outcomes. Targeted therapeutics have proven to be highly effective in primary breast cancer, but lack of molecular genomic characterization of metastatic brain tumors is hindering the development of new treatment regimens. Here we contribute to fill this void by reporting on gene copy number variation (CNV) in 10 breast cancer metastatic brain tumors, assayed by array comparative genomic hybridization (aCGH). Results were compared to a list of cancer genes verified by others to influence cancer. Cancer gene aberrations were identified in all specimens and pathway-level analysis was applied to aggregate data, which identified stem cell pluripotency pathway enrichment and highlighted recurring, significant amplification of SOX2, PIK3CA, NTRK1, GNAS, CTNNB1, and FGFR1. For a subset of the metastatic brain tumor samples (n=4) we compared patient-matched primary breast cancer specimens. The results of our CGH analysis and validation by alternative methods indicate that oncogenic signals driving growth of metastatic tumors exist in the original cancer. This report contributes support for more rapid development of new treatments of metastatic brain tumors, the use of genomic-based diagnostic tools and repurposed drug treatments.
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spelling pubmed-45464912015-08-27 Cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics Bollig-Fischer, Aliccia Michelhaugh, Sharon K. Wijesinghe, Priyanga Dyson, Greg Kruger, Adele Palanisamy, Nallasivam Choi, Lydia Alosh, Baraa Ali-Fehmi, Rouba Mittal, Sandeep Oncotarget Research Paper Breast cancer brain metastases remain a significant clinical problem. Chemotherapy is ineffective and a lack of treatment options result in poor patient outcomes. Targeted therapeutics have proven to be highly effective in primary breast cancer, but lack of molecular genomic characterization of metastatic brain tumors is hindering the development of new treatment regimens. Here we contribute to fill this void by reporting on gene copy number variation (CNV) in 10 breast cancer metastatic brain tumors, assayed by array comparative genomic hybridization (aCGH). Results were compared to a list of cancer genes verified by others to influence cancer. Cancer gene aberrations were identified in all specimens and pathway-level analysis was applied to aggregate data, which identified stem cell pluripotency pathway enrichment and highlighted recurring, significant amplification of SOX2, PIK3CA, NTRK1, GNAS, CTNNB1, and FGFR1. For a subset of the metastatic brain tumor samples (n=4) we compared patient-matched primary breast cancer specimens. The results of our CGH analysis and validation by alternative methods indicate that oncogenic signals driving growth of metastatic tumors exist in the original cancer. This report contributes support for more rapid development of new treatments of metastatic brain tumors, the use of genomic-based diagnostic tools and repurposed drug treatments. Impact Journals LLC 2015-04-24 /pmc/articles/PMC4546491/ /pubmed/25970776 Text en Copyright: © 2015 Bollig-Fischer et al. http://creativecommons.org/licenses/by/2.5/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Paper
Bollig-Fischer, Aliccia
Michelhaugh, Sharon K.
Wijesinghe, Priyanga
Dyson, Greg
Kruger, Adele
Palanisamy, Nallasivam
Choi, Lydia
Alosh, Baraa
Ali-Fehmi, Rouba
Mittal, Sandeep
Cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics
title Cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics
title_full Cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics
title_fullStr Cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics
title_full_unstemmed Cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics
title_short Cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics
title_sort cytogenomic profiling of breast cancer brain metastases reveals potential for repurposing targeted therapeutics
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4546491/
https://www.ncbi.nlm.nih.gov/pubmed/25970776
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