Abstract A17: Establishment of a Unique Patient-Derived Tumor Model Positive for STRN-ALK Fusion from a Patient with Stage IV Lung Adenocarcinoma

Abstract In lung adenocarcinoma, gene fusion involving the anaplastic lymphoma kinase (ALK) gene leads to overexpression of its tyrosine kinase domain, which serves as the oncogenic driver in lung tumors carrying such a molecular alteration. Similar fusions involving ROS1, RET and NTRK are also found in lung cancer and tumors with oncogenic fusions often respond well to targeted therapy. However, these tumors do develop resistance to the targeting drug and patients eventually relapse while on treatment. Although newer drugs have been developed, it remains a challenge to effectively control cancer recurrence after targeted therapy. In vivo tumor models carrying these fusions, particularly those that have progressed while on targeted treatment, will help to facilitate further drug evaluations prior to their administration to the patient as well as offer an opportunity to better understand the molecular mechanisms driving disease onset, progression, and drug resistance in tumors carrying the fusion of interest. Here, we describe the first patient-derived tumor xenograft (PDX) carrying an STRN-ALK fusion. The patient was diagnosed with stage IV lung adenocarcinoma in 2011. She was initially treated with crizotinib and remained stable until 2015. At the time of disease progression, a biopsy was taken with patient consent under CT guidance from a chest wall mass using an 18-gauge needle and then implanted into two SCID-beige mice subcutaneously and into the fat pad of the kidney. Palpable tumor was observed in both mice at about 28 weeks post implantation and passaged at 36 weeks. They have been passaged two successive times and viably frozen. Pathologic analysis of the PDX showed that both tumors have the same mucinous morphology as observed in the original biopsy sample. RNA-seq and matepair analysis revealed that the tumors carry a rare fusion involving the first three exons of STRN and exon 20 to 3’ end of the ALK gene. The patient has been on ceritinib since January 2016 and remains stable as of last follow up. Several unique features contributed to the success of this study. 1) The metastatic chest wall lesion used for the PDX developed was easily accessible on the chest wall using a relative large 18-gauge needle for CT-guided biopsies. 2) The slow growth of the tumor biopsy mirrors the clinical course of the disease observed in the patient. 3) The patient remains clinically stable and continues to respond to TKi. The availability of a viable PDX tumor model for this rare STRN-ALK fusion offers a unique opportunity to identify the most appropriate drug for the patient at the time of disease progression as well as the opportunity to examine the unique molecular features associated with this rare ALK fusion. This work was supported in part by the National Foundation for Cancer Research Hillsberg Lung Cancer Translational Research Grant and by the Biomarker Discovery Program at the Mayo Clinic Center for Individualized Medicine. Citation Format: HongZheng Res, XiaoNan Hou, Karlyn E. Pierson, Patric Eiken, Asha Nair, PingYang Yang, Joanne Eunhee Yi, Aaron S. Mansfield, Jin Jen. Establishment of a unique patient-derived tumor model positive for STRN-ALK fusion from a patient with stage IV lung adenocarcinoma [abstract]. In: Proceedings of the Fifth AACR-IASLC International Joint Conference: Lung Cancer Translational Science from the Bench to the Clinic; Jan 8-11, 2018; San Diego, CA. Philadelphia (PA): AACR; Clin Cancer Res 2018;24(17_Suppl):Abstract nr A17.