Mutational profiles of breast cancer metastases from a rapid autopsy series reveal multiple evolutionary trajectories
Bracha Erlanger Avigdor, Ashley Cimino-Mathews, Angelo M. DeMarzo, Jessica L. Hicks, James Shin, Saraswati Sukumar, John Fetting, Pedram Argani, Ben H. Park, Sarah J. Wheelan
Bracha Erlanger Avigdor, Ashley Cimino-Mathews, Angelo M. DeMarzo, Jessica L. Hicks, James Shin, Saraswati Sukumar, John Fetting, Pedram Argani, Ben H. Park, Sarah J. Wheelan
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Research Article Genetics

Mutational profiles of breast cancer metastases from a rapid autopsy series reveal multiple evolutionary trajectories

Abstract

Heterogeneity within and among tumors in a metastatic cancer patient is a well-established phenomenon that may confound treatment and accurate prognosis. Here, we used whole-exome sequencing to survey metastatic breast cancer tumors from 5 patients in a rapid autopsy program to construct the origin and genetic development of metastases. Metastases were obtained from 5 breast cancer patients using a rapid autopsy protocol and subjected to whole-exome sequencing. Metastases were evaluated for sharing of somatic mutations, correlation of copy number variation and loss of heterozygosity, and genetic similarity scores. Pathological features of the patients’ disease were assessed by immunohistochemical analyses. Our data support a monoclonal origin of metastasis in 3 cases, but in 2 cases, metastases arose from at least 2 distinct subclones in the primary tumor. In the latter 2 cases, the primary tumor presented with mixed histologic and pathologic features, suggesting early divergent evolution within the primary tumor with maintenance of metastatic capability in multiple lineages. We used genetic and histopathological evidence to demonstrate that metastases can be derived from a single or multiple independent clones within a primary tumor. This underscores the complexity of breast cancer clonal evolution and has implications for how best to determine and implement therapies for early- and late-stage disease.

Authors

Bracha Erlanger Avigdor, Ashley Cimino-Mathews, Angelo M. DeMarzo, Jessica L. Hicks, James Shin, Saraswati Sukumar, John Fetting, Pedram Argani, Ben H. Park, Sarah J. Wheelan

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Figure 2

Immunohistochemistry correlation with variant calls.

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Immunohistochemistry correlation with variant calls. Variable immunoreac...
Variable immunoreactivity for estrogen receptor (ER), progesterone receptor (PR), p21, E-cadherin, and β-catenin in liver and pericardial metastases correlates with variable ER and E-cadherin mutational status (MBC005). This patient’s primary tumor was an ER- and PR-positive, invasive ductal carcinoma. The majority of metastases, including the liver metastases, (A) demonstrated lobular morphology, whereas the pericardial metastasis (G) showed predominant ductal morphology. By whole-exome sequencing, β-catenin was mutated in all metastases. E-cadherin was mutated in the liver and pancreatic metastases but not the pericardium, while ER was mutated in the pericardial metastases but not the liver and pancreas. Both the liver (B) and pericardial metastases (H) demonstrated similar diffuse but weak labeling for ER (60%, weak). While the liver metastasis demonstrated minimal (5%, moderate) immunoreactivity for PR (C) and minimal labeling of p21 (D), the pericardial metastases, which harbored an ESR1 mutation, were diffusely and strongly immunoreactive for PR (80%, strong) (I) and demonstrated upregulated p21 expression (J). Consistent with mutational analysis, E-cadherin immunohistochemical labeling was lost in the liver metastases (E) (note intact expression in hepatocytes at the top part of the figure) but predominantly retained in the pericardial metastasis (K). β-Catenin expression was similarly lost in the liver metastasis (F) (note intact labeling in entrapped bile ducts) but was cytoplasmic (not membranous) in the pericardial metastases (L). Original magnification, ×400.