Novel molecular aberrations involved in testicular germ cell tumor (TGCT) development and cisplatin resistance.

Abstract

520 Background: Although highly curable, a proportion of testicular germ cell tumors (TGCT) develop resistance to cisplatin-based chemotherapy with subsequent disease relapses and possible patient death. The causes of disease progression and cisplatin (CDDP) resistance have not yet been well elucidated. Methods: We analyzed 56 samples of 15 patients with advanced and relapsing TGCT including primary tumors, metastases persisting after CDDP-containing chemotherapy, and circulating free tumor DNA (cfDNA) from the disease progression, with gDNA from blood leucocytes used as a background control. The quantity and quality of cfDNA was checked by capillary electrophoresis. All samples were sequenced by whole exome sequencing with SureSelect libraries on Illumina platform. Only mutations that were found in malignant samples or cfDNA with variant allele frequency (VAF) ≥ 5% and at least in 3 reads, not present in gDNA, with a minimum total read depth of 5 quality reads, excluding synonymous variants, were further analyzed. Results: Mutations of 6 genes with a significant role in carcinogenesis and/or testis development were identified in more than one patient: RBMX (in 4 pts), TPTE2 and ANKRD30A (in 3 pts), CDC27, PRAMEF8, and PRDM9 (in 2 pts). All the mutations were missense, with VAF 5 - 86%. They were all detectable in patients’ cfDNA, with increasing VAF during the tumor progression; the VAFs in cfDNA collected at advanced disease stages were even higher than those in primary tumors. PRDM9 mutations were found only in cfDNA from disease progression, but not in the primary testicular tumors. Of the identified genes, only CDC27 mutations have been previously described in TGCT. The genes newly associated with TGCT in this study are involved in genomic stability maintenance ( RBMX), spermiogenesis ( TPTE2), cell proliferation and apoptosis ( PRAMEF8), and several of them show testis-specific expression ( TPTE2, PRAMEF8, ANKRD30A, PRDM9). PRDM9 encodes a zinc-finger protein with histone methyltransferase activity, responsible for H3 methylation during meiosis. As epigenetic changes are supposed to play a crucial role in TGCT pathogenesis and resistance, and aberrant H3 methylation has been previously related to abnormal expression of OCT3/4 transcription factor promoting TGCT development, this gene is a strong candidate for TGCT progression and evolving CDDP resistance. Conclusions: Mutations of 5 novel genes have been identified in association with TGCT progression and cisplatin resistance. Their impact is strongly suggested by their functions in normal and malignant regulatory pathways and testis-specific expression patterns but has to be confirmed in experimental studies. The National Institute for Cancer Research project (Programme EXCELES, ID Project No. LX22NPO5102) - Funded by the European Union - Next Generation EU. Supported by grants MH CZ - DRO (00064190, 00064203).