1. Genotyping of Circulating Free DNA Enables Monitoring of Tumor Dynamics in Synovial Sarcomas
- Author
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Anja E. Eisenhardt, Zacharias Brugger, Ute Lausch, Jurij Kiefer, Johannes Zeller, Alexander Runkel, Adrian Schmid, Peter Bronsert, Julius Wehrle, Andreas Leithner, Bernadette Liegl-Atzwanger, Riccardo E. Giunta, Steffen U. Eisenhardt, and David Braig
- Subjects
Cancer Research ,soft tissue sarcoma ,synovial sarcoma ,next-generation sequencing ,targeted sequencing ,circulating tumor DNA ,ctDNA ,liquid biopsy ,diagnostic biomarker ,Oncology - Abstract
Background: Synovial sarcoma (SS) is a malignant soft tissue tumor of mesenchymal origin that frequently occurs in young adults. Translocation of the SYT gene on chromosome 18 to the SSX genes on chromosome X leads to the formation of oncogenic fusion genes, which lead to initiation and proliferation of tumor cells. The detection and quantification of circulating tumor DNA (ctDNA) can serve as a non-invasive method for diagnostics of local or distant tumor recurrence, which could improve survival rates due to early detection. Methods: We developed a subtype-specific targeted next-generation sequencing (NGS) approach specifically targeting SS t(X;18)(p11;q11), which fuses SS18 (SYT) in chromosome 18 to SSX1 or SSX2 in chromosome x, and recurrent point mutations. In addition, patient-specific panels were designed from tumor exome sequencing. Both approaches were used to quantify ctDNA in patients’ plasma. Results: The subtype-specific assay allowed detection of somatic mutations from 25/25 tumors with a mean of 1.68 targetable mutations. The minimal limit of detection was determined at a variant allele frequency of 0.05%. Analysis of 29 plasma samples from 15 tumor patients identified breakpoint ctDNA in 6 patients (sensitivity: 40%, specificity 100%). The addition of more mutations further increased assay sensitivity. Quantification of ctDNA in plasma samples (n = 11) from one patient collected over 3 years, with a patient-specific panel based on tumor exome sequencing, correlated with the clinical course, response to treatment and tumor volume. Conclusions: Targeted NGS allows for highly sensitive tumor profiling and non-invasive detection of ctDNA in SS patients, enabling non-invasive monitoring of tumor dynamics.
- Published
- 2022
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