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Abstract
Lack of clinically relevant tumor models dramatically hampers development of effective therapies for hepatocellular carcinoma (HCC). Establishment of patient-derived xenograft (PDX) models that faithfully recapitulate the genetic and phenotypic features of HCC becomes important. In this study, we first established a cohort of 65 stable PDX models of HCC from corresponding Chinese patients. Then we showed that the histology and gene expression patterns of PDX models were highly consistent between xenografts and case-matched original tumors. Genetic alterations, including mutations and DNA copy number alterations (CNAs), of the xenografts correlated well with the published data of HCC patient specimens. Furthermore, differential responses to sorafenib, the standard-of-care agent, in randomly chosen xenografts were unveiled. Finally, in the models expressing high levels of FGFR1 gene according to the genomic data, FGFR1 inhibitor lenvatinib showed greater efficacy than sorafenib. Taken together, our data indicate that PDX models resemble histopathological and genomic characteristics of clinical HCC tumors, as well as recapitulate the differential responses of HCC patients to the standard-of-care treatment. Overall, this large collection of PDX models becomes a clinically relevant platform for drug screening, biomarker discovery and translational research in preclinical setting.
Highlights
Liver cancer is the fifth and seventh most frequently diagnosed cancer in men and women, respectively, worldwide
The collection of patientderived xenograft (PDX) models recapitulates the features of the original tumors, including histopathology, gene expression profiles, mutational status, DNA copy number alterations (CNAs), and a serum biomarker, making it an excellent tool for study of hepatocellular carcinoma (HCC) and drug discovery
An earlier study showed that the differences of gene expression between xenografts and original patient samples were relatively low through the passages up to P9 [21]
Summary
Liver cancer is the fifth and seventh most frequently diagnosed cancer in men and women, respectively, worldwide. Hepatocellular carcinoma (HCC) represents the major histological subtype that accounts for 70% to 85% of the total liver cancers [1]. A pan tyrosine kinase inhibitor, has remained the only approved targeted agent for advanced HCC since 2007. Despite of its application in the clinic, the benefit of sorafenib remains modest [4]. The biomarkers predicting the prognosis and responses to the treatment with sorafenib in HCC are virtually absent. The success rate of developing new therapies for HCC is low despite exceptional investment in pharmaceutical research and development. Lack of clinically relevant and molecularly characterized preclinical models critically accounts for the failures in the development of efficacious therapeutics for HCC [8]
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