Genomic profiling of ER+ breast cancers after short-term estrogen suppression reveals alterations associated with endocrine resistance

Giltnane, Jennifer M.; Hutchinson, Katherine E.; Stricker, Thomas P.; Formisano, Luigi; Young, Christian D.; Estrada, Monica V.; Nixon, Mellissa J.; Liping, Du; Sanchez, Violeta; Ericsson, Paula Gonzalez; Kuba, Maria G.; Sanders, Melinda E.; Xinmeng J., Mu; Van Allen, Eliezer M.; Wagle, Nikhil; Mayer, Ingrid A.; Abramson, Vandana; Gómez, Henry; Rizzo, Monica; Toy, Weiyi; Chandarlapaty, Sarat; Mayer, Erica L.; Christiansen, Jason; Murphy, Danielle; Fitzgerald, Kerry; Wang, Kai; Ross, Jeffrey S.; Miller, Vincent A.; Stephens, Phillip J.; Yelensky, Roman; Garraway, Levi; Shyr, Yu; Meszoely, Ingrid; Balko, Justin M.; Arteaga, Carlos L.

doi:10.1126/scitranslmed.aai7993

Inhibition of proliferation in estrogen receptor-positive (ER+) breast cancers after short-term antiestrogen therapy correlates with long-term patient outcome. We profiled 155 ER+/human epidermal growth factor receptor 2-negative (HER2-) early breast cancers from 143 patients treated with the aromatase inhibitor letrozole for 10 to 21 days before surgery. Twenty-one percent of tumors remained highly proliferative, suggesting that these tumors harbor alterations associated with intrinsic endocrine therapy resistance. Whole-exome sequencing revealed a correlation between 8p11-12 and 11q13 gene amplifications, including FGFR1 and CCND1, respectively, and high Ki67. We corroborated these findings in a separate cohort of serial pretreatment, postneoadjuvant chemotherapy, and recurrent ER+ tumors. Combined inhibition of FGFR1 and CDK4/6 reversed antiestrogen resistance in ER+FGFR1/CCND1 coamplified CAMA1 breast cancer cells. RNA sequencing of letrozole-treated tumors revealed the existence of intrachromosomal ESR1 fusion transcripts and increased expression of gene signatures indicative of enhanced E2F-mediated transcription and cell cycle processes in cancers with high Ki67. These data suggest that short-term preoperative estrogen deprivation followed by genomic profiling can be used to identify druggable alterations that may cause intrinsic endocrine therapy resistance.

Genomic profiling of ER+ breast cancers after short-term estrogen suppression reveals alterations associated with endocrine resistance / Giltnane, Jennifer M.; Hutchinson, Katherine E.; Stricker, Thomas P.; Formisano, Luigi; Young, Christian D.; Estrada, Monica V.; Nixon, Mellissa J.; Du, Liping; Sanchez, Violeta; Ericsson, Paula Gonzalez; Kuba, Maria G.; Sanders, Melinda E.; Mu, Xinmeng J.; Van Allen, Eliezer M.; Wagle, Nikhil; Mayer, Ingrid A.; Abramson, Vandana; Gómez, Henry; Rizzo, Monica; Toy, Weiyi; Chandarlapaty, Sarat; Mayer, Erica L.; Christiansen, Jason; Murphy, Danielle; Fitzgerald, Kerry; Wang, Kai; Ross, Jeffrey S.; Miller, Vincent A.; Stephens, Phillip J.; Yelensky, Roman; Garraway, Levi; Shyr, Yu; Meszoely, Ingrid; Balko, Justin M.; Arteaga, Carlos L.. - In: SCIENCE TRANSLATIONAL MEDICINE. - ISSN 1946-6234. - 9:402(2017), pp. 1-14. [10.1126/scitranslmed.aai7993]