Liquid Biopsy in Germ Cell Tumors

Study design This is a prospective, non-therapeutic trial to test the diagnostic and prognostic value of ctDNA in TGCT patients. 100 patients with metastatic TGCT presenting to treating centers in Austria, centers from the SAG registry and selected centers from Germany will be asked to participate and blood will be drawn for ctDNA and miR-371a-3p analysis during the course of disease at defined time points. In addition, 100 patients with stage I disease within Austria will be included.

Sampling Prior to surgery and intraoperative: Plasma and micro RNA samples will also be obtained prior to surgery. Plasma will be also obtained intraoperatively form the testicular vein.

After orchiectomy (before the 1st cycle of chemotherapy): Blood will be drawn into two PAXgene® Blood ccfDNA tubes (approx. 20ml) for ctDNA analysis before the start of chemotherapy. PAXgene tubes and tumor tissue will be send and stored at the Biobank of the Medical University of Graz. For the miR-371a-3p collection 10ml blood will be collected in serum tubes, centrifuged and 2ml serum stored at -80°.

Before the second cycle of chemotherapy: To evaluate treatment response with ctDNA levels, two PAXgene® Blood ccfDNA tubes (approx. 20ml) will be collected before the application of the second chemotherapy cycle. For the miR-371a-3p collection 10ml blood will be collected and processed as described above.

After completion of treatment: When the patient has completed first line treatment another two PAXgene® Blood ccfDNA tubes (approx. 20ml) will be drawn for ctDNA analysis. For the miR-371a-3p collection 10ml blood will be collected and processed as described above.

At the time of relapse: Approximately 20-30% of patients with metastatic TGCT will relapse. These can be primarily non-responders or patients who relapse after completion of chemotherapy which usually occurs within two years. Two PAXgene® Blood ccfDNA tubes (approx. 20ml) will be drawn for ctDNA analysis at the time of relapse (evident on imaging or rise of classical tumor markers). For the miR-371a-3p collection 10ml blood will be collected.

Sample analysis Comprehensive molecular profiling of the primary tumor tissue DNA from tumors samples will be isolated using the GeneRead DNA FFPE Kit (QIAGEN). DNA will be quantified using the Qubit (Thermo Fisher). To comprehensively profile tissues the duet multiomics solution evoC platform will be used, which not only interrogates the genome with respect to genetic alterations, but also enables epigenetic analysis differentiating between methylcytosine (mC) and hydroxymethylcytosine (hmC). Such a combined genome and methylome may reveals a correlation in 5mC and 5hmC by distinguishing between the two within regions of open chromatin and gene expression. The same data set can be used to infer genome-wide copy alterations. SCNA and focal alterations will be called using established in-house algorithms. Tumor purity/ploidy will be assessed using the ichorCNA algorithm, a hidden Markov model (HMM) for the probabilistic modeling and works in sequencing coverages down to 0.1X and enables a detection of SCNA down to a tumor fraction of 3%. In case the clonality of the tumor tissue is too low, exomes sequencing will be optionally performed for deep mutation profiling. Biomodal data from tissues will be compared to plasma samples from the time point of progression as well as to chemosensitive tumors to identify factors contributing to acquired and primary resistance. Tissue collected during surgery will be send to the department of pathology at the Medical University of Graz where DNA isolation and genome sequencing will be performed.

Analysis of ctDNA Blood will be collected in PAXgene® Blood ccfDNA and sent to the Institute of Human Genetics for further processing. cfDNA extraction from plasma will be performed using the QIAsymphony PAXgene Blood ccfDNA Kit (QIAGEN). To identify SCNA, we will employ sWGS (plasma-Seq) and again analyze the data with the ichorCNA algorithm. Alternatively, dPCR will be performed to screen for the 12p gain to increase the sensitivity. Plasma samples with a high tumor fractions from patients with disease recurrence will be additionally analyzed using the Biomodal platform and whole exome sequencing. Genetic and epigenetic profiles will be compared to the diagnostic tissue gained from orchiectomy. We have already successfully implemented the Biomodal platform in our lab in the framework of prostate cancer project. Moreover, we have evaluated an ctDNA-specific exome enrichment kit, which enables reliable variant detection down to 1%. All bioinformatics tools to analyze exome and Biomodal data sets are well established at the Institute of Human Genetics of the Medical University of Graz.