ARID1A Mutation from Targeted NGS Predicts Primary Resistance to Gemcitabine and Cisplatin Chemotherapy in Advanced Biliary Tract Cancer

Sung Hwan Lee; Jaekyung Cheon; Seoyoung Lee; Beodeul Kang; Chan Kim; Hyo Sup Shim; Young Nyun Park; Sanghoon Jung; Sung Hoon Choi; Hye Jin Choi; Choong-Kun Lee; Hong Jae Chon

doi:10.4143/crt.2022.1450

YUHSpace

BROWSE

154 128

Cited 0 times in

ARID1A Mutation from Targeted NGS Predicts Primary Resistance to Gemcitabine and Cisplatin Chemotherapy in Advanced Biliary Tract Cancer

Authors: Sung Hwan Lee ; Jaekyung Cheon ; Seoyoung Lee ; Beodeul Kang ; Chan Kim ; Hyo Sup Shim ; Young Nyun Park ; Sanghoon Jung ; Sung Hoon Choi ; Hye Jin Choi ; Choong-Kun Lee ; Hong Jae Chon

Citation: CANCER RESEARCH AND TREATMENT, Vol.55(4) : 1291-1302, 2023-10

Journal Title: CANCER RESEARCH AND TREATMENT

ISSN: 1598-2998

Issue Date: 2023-10

MeSH: Antineoplastic Combined Chemotherapy Protocols / adverse effects ; Bile Duct Neoplasms* / pathology ; Bile Ducts, Intrahepatic / pathology ; Cholangiocarcinoma* / genetics ; Cisplatin / pharmacology ; Cisplatin / therapeutic use ; DNA-Binding Proteins / genetics ; Deoxycytidine / adverse effects ; Gemcitabine ; High-Throughput Nucleotide Sequencing ; Humans ; Mutation ; Prospective Studies ; Transcription Factors / genetics

Keywords: ARID1A ; Biliary tract neoplasms ; Chemotherapy ; High-throughput nucleotide sequencing

Abstract: Purpose: There are clinical unmet needs in predicting therapeutic response and precise strategy for the patient with advanced biliary tract cancer (BTC). We aimed to identify genomic alterations predicting therapeutic response and resistance to gemcitabine and cisplatin (Gem/Cis)-based chemotherapy in advanced BTC.

Materials and methods: Genomic analysis of advanced BTC multi-institutional cohorts was performed using targeted panel sequencing. Genomic alterations were analyzed integrating patients' clinicopathologic data, including clinical outcomes of Gem/Cis-based therapy. Significance of genetic alterations was validated using clinical next-generation sequencing (NGS) cohorts from public repositories and drug sensitivity data from cancer cell lines.

Results: 193 BTC patients from three cancer centers were analyzed. Most frequent genomic alterations were TP53 (55.5%), KRAS (22.8%), ARID1A (10.4%) alterations, and ERBB2 amplification (9.8%). Among 177 patients with BTC receiving Gem/Cis-based chemotherapy, ARID1A alteration was the only independent predictive molecular marker of primary resistance showing disease progression for 1st-line chemotherapy in the multivariate regression model (odds ratio, 3.12; p=0.046). In addition, ARID1A alteration was significantly correlated with inferior progression-free survival on Gem/Cis-based chemotherapy in the overall patient population (p=0.033) and in patients with extrahepatic cholangiocarcinoma (CCA) (p=0.041). External validation using public repository NGS revealed that ARID1A mutation was a significant predictor for poor survival in BTC patients. Investigation of multi-OMICs drug sensitivity data from cancer cell lines revealed that cisplatin-resistance was exclusively observed in ARID1A mutant bile duct cancer cells.

Conclusion: Integrative analysis with genomic alterations and clinical outcomes of the first-line Gem/Cis-based chemotherapy in advanced BTC revealed that patients with ARID1Aalterations showed a significant worse clinical outcome, especially in extrahepatic CCA. Well-designed prospective studies are mandatory to validate the predictive role of ARID1Amutation.