Abstract 6620: PDX models of TNBC established from pre- and post-therapy tumors identify vulnerabilities of resistant disease

Author:

Rinkenbaugh Amanda L.1,Qi Yuan1,Powell Reid T.2,Cai Shirong1,Shao Jiansu1,Hancock Faiza Baameur1,Guo Lei2,Zhang Xiaomei1,Jeter-Jones Sabrina1,Fu Chunxiao1,Gould Rebekah1,White Jason B.1,Stephan Clifford2,Echeverria Gloria V.1,Davies Peter J.2,Moulder Stacy1,Symmans W. Fraser1,Chang Jeffrey T.3,Piwnica-Worms Helen1

Affiliation:

1. 1UT MD Anderson Cancer Center, Houston, TX;

2. 2Texas A&M Health Science Center, Houston, TX;

3. 3University of Texas Health Science Center, Houston, TX.

Abstract

Abstract Chemotherapy, along with the PD1 inhibitor pembrolizumab, is the recommended standard of care for patients with primary triple negative breast cancer (TNBC). Nearly half of TNBC patients treated with standard neoadjuvant chemotherapy (NACT) have excellent responses. However, those patients with significant residual cancer burden (RCB) after NACT are at high risk of recurrence or metastatic relapse within two years. Due to the challenges posed by the inter- and intratumoral heterogeneity of TNBC, it is critical to develop appropriate models for predicting and overcoming therapy resistance. We established a collection of 92 orthotopic patient-derived xenograft (PDX) models of TNBC from 84 patients before, during, and after NACT while they were enrolled in the ARTEMIS trial (NCT02276443) at MD Anderson Cancer Center. Serial biopsies were obtained from patients prior to treatment (pre-NACT), from poorly responsive disease after four cycles of Adriamycin and cyclophosphamide (AC, mid-NACT), after a 3-month course of additional chemotherapy and/or different experimental therapies in cases of AC resistance (post-NACT), and from the metastatic lesions of two patients. The collection includes 12 longitudinal sets. Models were established from chemo-sensitive and -resistant tumors, but engraftment success was higher from those cancers that proved to be treatment resistant (RCB II/III). The PDX collection includes models encompassing a broad heterogeneity of chemotherapy responses, histologic features, and molecular TNBC subtypes. In addition, the majority of models develop spontaneous lung metastases. Whole exome sequencing demonstrated conservation of mutations between patient tumors and corresponding PDX models, with TP53 being the most commonly mutated gene. A similar comparison of patient and PDX transcriptomes revealed conservation of signaling pathway signatures, with those related to immune and stromal interactions being the most variable, as anticipated when adapting human tumors to growth in mice. The subclonal architecture of the tumors exhibited little overall change throughout NACT, suggesting that selection for resistant subclones is not likely to be a significant contributor to resistance. Tumor cells from the longitudinal PDX collections were subjected to high throughput drug susceptibility profiling to identify targetable vulnerabilities associated with resistance to NACT. We found that post-NACT tumors exhibited enhanced sensitivity to drugs targeting protein homeostasis pathways. Preclinical studies with pevonedistat validated the neddylation pathway as an effective target in chemoresistant TNBC. Citation Format: Amanda L. Rinkenbaugh, Yuan Qi, Reid T. Powell, Shirong Cai, Jiansu Shao, Faiza Baameur Hancock, Lei Guo, Xiaomei Zhang, Sabrina Jeter-Jones, Chunxiao Fu, Rebekah Gould, Jason B. White, Clifford Stephan, Gloria V. Echeverria, Peter J. Davies, Stacy Moulder, W. Fraser Symmans, Jeffrey T. Chang, Helen Piwnica-Worms. PDX models of TNBC established from pre- and post-therapy tumors identify vulnerabilities of resistant disease [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 6620.

Publisher

American Association for Cancer Research (AACR)

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