Z Gastroenterol 2017; 55(08): e57-e299
DOI: 10.1055/s-0037-1605133
Kurzvorträge
Gastroenterologische Onkologie
Grundlagen: HCC und CCC: Donnerstag, 14 September 2017, 09:30 – 10:58, St. Petersburg/Forschungsforum 1
Georg Thieme Verlag KG Stuttgart · New York

Patient-Derived cancer cell lines as a model for human liver cancer: from phenotypic characterization to therapeutic target identification

Authors

  • D Castven

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • D Becker

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • C Czauderna

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • D Wilhelm

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • J Andersen

    2   University of Copenhagen/Biotech Research and Innovation Centre (BRIC), Kopenhagen, Dänemark
  • S Strand

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • S Heilmann-Heimbach

    3   University Hospital of Bonn/Department of Genomics, Life & Brain Center, Bonn, Deutschland
  • W Roth

    4   Johannes Gutenberg University Mainz/Institute of Pathology, Mainz, Deutschland
  • N Hartmann

    4   Johannes Gutenberg University Mainz/Institute of Pathology, Mainz, Deutschland
  • B Straub

    4   Johannes Gutenberg University Mainz/Institute of Pathology, Mainz, Deutschland
  • F Mahn

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • S Franck

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • S Pereira

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • A Haupt

    4   Johannes Gutenberg University Mainz/Institute of Pathology, Mainz, Deutschland
  • A Vogel

    5   Hannover Medical School/Department of Gastroenterology, Hepatology and Endocrinology, Hannover, Deutschland
  • M Wörns

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • A Weinmann

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • S Heinrich

    6   Johannes Gutenberg University Mainz/Department of Surgery, Mainz, Deutschland
  • H Lang

    6   Johannes Gutenberg University Mainz/Department of Surgery, Mainz, Deutschland
  • S Thorgeirsson

    7   National Cancer Institute, NIH/Laboratory of Human Carcinogenesis (LHC), Bethesda, Vereinigte Staaten von Amerika
  • P Galle

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
  • J Marquardt

    1   Johannes Gutenberg University Mainz/Department of Medicine I, Mainz, Deutschland
Weitere Informationen

Publikationsverlauf

Publikationsdatum:
02. August 2017 (online)

 

Introduction:

Primary liver cancers (PLCs) rank among the most lethal solid cancers worldwide due to lack of effective biomarkers for early detection and limited treatment options in advanced stages. While cell lines have been of significant impact for cancer research over the last decades, development of in vitro models that closely recapitulate phenotypic and molecular diversity of the primary cancers is urgently needed to improve the outcome of patients.

Methods:

Long-term culture of 9 liver cancer cell lines of hepatocellular, cholangiocellular and metastatic origin were established using defined culture conditions. Morphological and histological characteristics of obtained cell lines and xenograft tumors were analyzed and compared to original tumors. Further, time course analyses of transcriptomic and genomic changes were performed using next-generation sequencing (NGS). Key oncogenic alterations were further identified by targeted NGS and cell lines carrying potentially actionable mutations were treated with corresponding specific inhibitors. Response to the treatments was further evaluated.

Results:

The newly patient-derived cell lines (PDCL) fully resembled morphological features of the primary cancers in vitro and in vivo. Genomic alterations as well as transcriptome profiles of the PDCL showed high concordance with the primaries and remained stable for at least 30 passages. Next-generation sequencing approaches confirmed that key oncogenic mutations such as TP53, KRAS, CTNNB1 as well as potentially actionable mutations (e.g. MET, cKIT, KDR) were highly conserved in the PDCL. Integrative genomic and transcriptomic approaches demonstrate the utility of PDCL as representative model for distinct prognostic subpopulations of liver cancer patients. Moreover, the PDCL could be effectively used for therapeutic testing. Specific targeting of detected actionable mutations, such as MET and cKIT, confirmed a superior response and sustained sensitivity to specific inhibition in comparison to non-mutated control cells.

Conclusion:

Our integrative analysis demonstrates that the use of newly established cell lines represents a sophisticated model to discover relevant molecular subgroups and to test drug sensitivity by exploring precision medicine approaches.