Nolan Priedigkeit1,2, Kai Ding2,3,4, William Horne5, Jay K Kolls5, Tian Du2, Peter C Lucas2,6, Jens-Uwe Blohmer7, Carsten Denkert8, Anna Machleidt7, Barbara Ingold-Heppner9, Steffi Oesterreich2,3,4, Adrian V Lee10,11,12,13,14. 1. Department of Medicine, Brigham and Women's Hospital/Harvard Medical School, Boston, MA, USA. 2. Women's Cancer Research Center, UPMC Hillman Cancer Center, Pittsburgh, PA, USA. 3. Department of Pharmacology and Chemical Biology, University of Pittsburgh, Pittsburgh, PA, USA. 4. Magee-Women's Research Institute, Magee-Women's Research Hospital of University of Pittsburgh Medical Center, Pittsburgh, PA, USA. 5. Richard King Mellon Foundation Institute for Pediatric Research, UPMC Children's Hospital of Pittsburgh, Pittsburgh, PA, USA. 6. Department of Pathology, University of Pittsburgh School of Medicine, Pittsburgh, PA, USA. 7. Institute of Pathology and Department of Gynecology, Charité University Hospital, Berlin, Germany. 8. Institute of Pathology, Philipps-University Marburg and University Hospital Marburg (UKGM), Marburg, Germany. 9. Institute of Pathology, DRK Kliniken Berlin, Berlin, Germany. 10. Women's Cancer Research Center, UPMC Hillman Cancer Center, Pittsburgh, PA, USA. leeav@upmc.edu. 11. Department of Pharmacology and Chemical Biology, University of Pittsburgh, Pittsburgh, PA, USA. leeav@upmc.edu. 12. Magee-Women's Research Institute, Magee-Women's Research Hospital of University of Pittsburgh Medical Center, Pittsburgh, PA, USA. leeav@upmc.edu. 13. Department of Human Genetics, University of Pittsburgh, Pittsburgh, PA, USA. leeav@upmc.edu. 14. Magee-Women's Research Institute, 204 Craft Avenue (Room A412), Pittsburgh, PA, 15213, USA. leeav@upmc.edu.
Abstract
BACKGROUND: Endocrine therapy resistance is a hallmark of advanced estrogen receptor (ER)-positive breast cancer. In this study, we aimed to determine acquired genomic changes in endocrine-resistant disease. METHODS: We performed DNA/RNA hybrid-capture sequencing on 12 locoregional recurrences after long-term estrogen deprivation and identified acquired genomic changes versus each tumor's matched primary. RESULTS: Despite being up to 7 years removed from the primary lesion, most recurrences harbored similar intrinsic transcriptional and copy number profiles. Only two genes, AKAP9 and KMT2C, were found to have single nucleotide variant (SNV) enrichments in more than one recurrence. Enriched mutations in single cases included SNVs within transcriptional regulators such as ARID1A, TP53, FOXO1, BRD1, NCOA1, and NCOR2 with one local recurrence gaining three PIK3CA mutations. In contrast to DNA-level changes, we discovered recurrent outlier mRNA expression alterations were common-including outlier gains in TP63 (n = 5 cases [42%]), NTRK3 (n = 5 [42%]), NTRK2 (n = 4 [33%]), PAX3 (n = 4 [33%]), FGFR4 (n = 3 [25%]), and TERT (n = 3 [25%]). Recurrent losses involved ESR1 (n = 5 [42%]), RELN (n = 5 [42%]), SFRP4 (n = 4 [33%]), and FOSB (n = 4 [33%]). ESR1-depleted recurrences harbored shared transcriptional remodeling events including upregulation of PROM1 and other basal cancer markers. CONCLUSIONS: Taken together, this study defines acquired genomic changes in long-term, estrogen-deprived disease; highlights the importance of longitudinal RNA profiling; and identifies a common ESR1-depleted endocrine-resistant breast cancer subtype with basal-like transcriptional reprogramming.
BACKGROUND: Endocrine therapy resistance is a hallmark of advanced estrogen receptor (ER)-positive breast cancer. In this study, we aimed to determine acquired genomic changes in endocrine-resistant disease. METHODS: We performed DNA/RNA hybrid-capture sequencing on 12 locoregional recurrences after long-term estrogen deprivation and identified acquired genomic changes versus each tumor's matched primary. RESULTS: Despite being up to 7 years removed from the primary lesion, most recurrences harbored similar intrinsic transcriptional and copy number profiles. Only two genes, AKAP9 and KMT2C, were found to have single nucleotide variant (SNV) enrichments in more than one recurrence. Enriched mutations in single cases included SNVs within transcriptional regulators such as ARID1A, TP53, FOXO1, BRD1, NCOA1, and NCOR2 with one local recurrence gaining three PIK3CA mutations. In contrast to DNA-level changes, we discovered recurrent outlier mRNA expression alterations were common-including outlier gains in TP63 (n = 5 cases [42%]), NTRK3 (n = 5 [42%]), NTRK2 (n = 4 [33%]), PAX3 (n = 4 [33%]), FGFR4 (n = 3 [25%]), and TERT (n = 3 [25%]). Recurrent losses involved ESR1 (n = 5 [42%]), RELN (n = 5 [42%]), SFRP4 (n = 4 [33%]), and FOSB (n = 4 [33%]). ESR1-depleted recurrences harbored shared transcriptional remodeling events including upregulation of PROM1 and other basal cancer markers. CONCLUSIONS: Taken together, this study defines acquired genomic changes in long-term, estrogen-deprived disease; highlights the importance of longitudinal RNA profiling; and identifies a common ESR1-depleted endocrine-resistant breast cancer subtype with basal-like transcriptional reprogramming.
Entities:
Keywords:
ARID1A; Breast cancer; Cancer genomics; Copy number alterations; DNA-seq; ESR1; Endocrine therapy; Estrogen receptor; Exome capture; FFPE; Locoregional recurrence; NTRK; RNA-seq; Targeted sequencing; Therapy resistance; Tumor profiling
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