12312 A Comparative Genomic Analysis Between Parathyroid Adenomas And Carcinomas With Heterozygous Germline Cdc73 Mutations

Abstract

Abstract Disclosure: Y. Li: None. W.F. Simonds: None. H. Chen: None. Introduction: Parathyroid cancer is responsible for ∼1% of primary hyperparathyroidism. The hereditary form of this malignancy has been linked to germline mutations of the CDC73 gene. We previously reported that only the germline CDC73 mutations causing a significant impact on the function/expression of its encoded protein are associated with parathyroid carcinomas. On the other hand, these germline mutations may lead to only parathyroid adenomas or no parathyroid disease, suggesting incomplete penetrance. This observation raises the question of what additional genomic events are required for parathyroid tumorigenesis in carriers with germline CDC73 mutations. Methods: Twelve patients harboring heterozygous germline CDC73 mutations were included in this study. Whole exome sequencing was performed in all 12 parathyroid tumors (6 adenomas and 6 carcinomas) and the paired normal tissues. RNA sequencing was successfully performed in three of each parathyroid carcinomas, adenomas, and normal glands. The sequencing raw data were processed using the CCBR-Pipeliner. EnrichR, Gene Set Enrichment Analysis, and CIBERSORT were used for the downstream analyses. Results: All parathyroid carcinomas and adenomas had gained one somatic event predicted to cause a complete inactivation of the second CDC73 allele. Several distinctive genomic features were identified in parathyroid carcinomas compared to adenomas, including more single nucleotide variants bearing the signature of APOBEC deamination, frequent mutations among the genes involved in the PI-3K/mTOR signaling, and substantially more copy number variations and differentially expressed genes. Parathyroid carcinomas also share some genomic features with adenomas. For instance, both tumors have frequent somatic mutations and copy number loss that impact the genes related to T-cell receptor signaling and tumor antigen presentation, suggesting a shared strategy to evade immune surveillance. Consistent with these findings, an in silico estimation of immune cell composition in tumors found an absence of CD8+ T-cells in parathyroid adenomas and carcinomas. Conclusion: Our study provides evidence that biallelic inactivation of CDC73 is essential for parathyroid tumorigenesis in carriers with germline mutations of this gene. Despite sharing some genomic features with adenomas, parathyroid carcinomas have more distinctive alterations in the genome, some of which may be critical for cancer formation. Presentation: 6/2/2024