AI Article Synopsis
- - This study analyzes the differences between primary cervical carcinomas (CES-P) and their recurrent/metastatic counterparts (CES-R/M), particularly focusing on genetic changes and immune response during tumor progression.
- - Whole exome sequencing revealed that CES-R/M tumors had higher mutation rates and specific alterations in genes related to epigenetic regulation, along with changes in immune activation and cancer progression pathways.
- - Findings indicate that certain gene expressions, like the increase of POSTN and decrease of APOBEC3A, are linked to worse clinical outcomes, highlighting potential targets for understanding and treating metastatic cervical cancer.
Article Abstract
Acquisition of recurrent/metastatic potential by a tumor cell defines a critical step in malignant progression. However, understanding of metastatic progression at the molecular level is scarce for cervical carcinomas (CES). In this study, we performed genomic, transcriptomic, and viral profiling of five pairs of primary (CES-P) and matched recurrent/metastatic tumors (CES-R/M) with high risk human papillomavirus. Whole exome sequencing revealed mutation features of CES-R/M including elevated mutation burdens and prevalent copy number alterations compared to their matched CES-P. A relative deficit of APOBEC-related mutation signatures accompanying the transcriptional downregulation of APOBEC3A was observed for CES-R/M. Mutations in genes encoding epigenetic regulators were commonly observed as CES-R/M-specific alterations. Immunoprofiling and gene set analysis revealed CES-Ps were enriched with transcripts representing activated anticancer immunity such as interferon-gamma pathway, while CES-R/M exhibited upregulation of genes involved in epithelial-mesenchymal transition and angiogenesis. Viral capture sequencing revealed that integration sites remained enriched in viral E1 protein domain during malignant progression. Moreover, we found transcriptional upregulation of POSTN and downregulation of APOBEC3A were associated with unfavorable clinical outcomes in CES. Comprehensive genomic and transcriptomic profiling of a rare cohort including CES-R/M identified metastases-specific features to advance the molecular understanding into CES metastatic progression with potential clinical implications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7643681 | PMC |
| http://dx.doi.org/10.1002/cam4.3426 | DOI Listing |
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