BRCA1 deficiency in ovarian cancer is associated with alteration in expression of several key regulators of cell motility – A proteomics study

Functional loss of expression of breast cancer susceptibility gene 1(BRCA1) has been implicated in genomic instability and cancer progression. There is emerging evidence that BRCA1 gene product (BRCA1) also plays a role in cancer cell migration. We performed a quantitative proteomics study of EOC pa...

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Hauptverfasser:	Gau, David M, Lesnock, Jamie L, Hood, Brian L, Rohit Bhargava, Sun, Mai, Darcy, Kathleen, Soumya Luthra, Chandran, Uma, Conrads, Thomas P, Edwards, Robert P, Kelley, Joseph L, Krivak, Thomas C, Partha Roy
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Schlagworte:	Biochemistry Biophysics Cancer Cell Biology Chemical Sciences not elsewhere classified Developmental Biology FOS: Biological sciences FOS: Chemical sciences FOS: Clinical medicine Genetics Immunology Molecular Biology
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creator	Gau, David M Lesnock, Jamie L Hood, Brian L Rohit Bhargava Sun, Mai Darcy, Kathleen Soumya Luthra Chandran, Uma Conrads, Thomas P Edwards, Robert P Kelley, Joseph L Krivak, Thomas C Partha Roy
description	Functional loss of expression of breast cancer susceptibility gene 1(BRCA1) has been implicated in genomic instability and cancer progression. There is emerging evidence that BRCA1 gene product (BRCA1) also plays a role in cancer cell migration. We performed a quantitative proteomics study of EOC patient tumor tissues and identified changes in expression of several key regulators of actin cytoskeleton/cell adhesion and cell migration (CAPN1, 14-3-3, CAPG, PFN1, SPTBN1, CFN1) associated with loss of BRCA1 function. Gene expression analyses demonstrate that several of these proteomic hits are differentially expressed between early and advanced stage EOC thus suggesting clinical relevance of these proteins to disease progression. By immunohistochemistry of ovarian tumors with BRCA1+/+ and BRCA1null status, we further verified our proteomic-based finding of elevated PFN1 expression associated with BRCA1 deficiency. Finally, we established a causal link between PFN1 and BRCA1-induced changes in cell migration thus uncovering a novel mechanistic basis for BRCA1-dependent regulation of ovarian cancer cell migration. Overall, findings of this study open up multiple avenues by which BRCA1 can potentially regulate migration and metastatic phenotype of EOC cells.
doi_str_mv	10.6084/m9.figshare.1399206
format	Dataset
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There is emerging evidence that BRCA1 gene product (BRCA1) also plays a role in cancer cell migration. We performed a quantitative proteomics study of EOC patient tumor tissues and identified changes in expression of several key regulators of actin cytoskeleton/cell adhesion and cell migration (CAPN1, 14-3-3, CAPG, PFN1, SPTBN1, CFN1) associated with loss of BRCA1 function. Gene expression analyses demonstrate that several of these proteomic hits are differentially expressed between early and advanced stage EOC thus suggesting clinical relevance of these proteins to disease progression. By immunohistochemistry of ovarian tumors with BRCA1+/+ and BRCA1null status, we further verified our proteomic-based finding of elevated PFN1 expression associated with BRCA1 deficiency. Finally, we established a causal link between PFN1 and BRCA1-induced changes in cell migration thus uncovering a novel mechanistic basis for BRCA1-dependent regulation of ovarian cancer cell migration. Overall, findings of this study open up multiple avenues by which BRCA1 can potentially regulate migration and metastatic phenotype of EOC cells.</abstract><pub>Taylor & Francis</pub><doi>10.6084/m9.figshare.1399206</doi><oa>free_for_read</oa></addata></record>
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identifier	DOI: 10.6084/m9.figshare.1399206
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subjects	Biochemistry Biophysics Cancer Cell Biology Chemical Sciences not elsewhere classified Developmental Biology FOS: Biological sciences FOS: Chemical sciences FOS: Clinical medicine Genetics Immunology Molecular Biology
title	BRCA1 deficiency in ovarian cancer is associated with alteration in expression of several key regulators of cell motility – A proteomics study
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