RESUMEN
The molecular pathogenesis of extranodal NK/T-cell lymphoma (NKTCL) remains obscured despite the next-generation sequencing (NGS) studies explored on ever larger cohorts in the last decade. We addressed the highly variable mutation frequencies reported among previous studies with comprehensive amplicon coverage and enhanced sequencing depth to achieve higher genomic resolution for novel genetic discovery and comparative mutational profiling of the oncogenesis of NKTCL. Targeted exome sequencing was conducted to interrogate 415 cancer-related genes in a cohort of 36 patients with NKTCL, and a total of 548 single nucleotide variants (SNVs) and 600 Copy number variances (CNVs) were identified. Recurrent amplification of the MCL1 (67%) and PIM1 (56%) genes was detected in a dominant majority of patients in our cohort. Functional mapping of genetic aberrations revealed that an enrichment of mutations in the JAK-STAT signaling pathway, including the cytokine receptor LIFR (copy number loss) upstream of JAK3, STAT3 (activating SNVs), and downstream effectors of MYC, PIM1 and MCL1 (copy number gains). RNA in situ hybridization showed the significant consistence of MCL1 RNA level and copy number of MCL1 gene. We further correlated molecular and clinical parameters with overall survival (OS) of these patients. When correlations were analyzed by univariate followed by multivariate modelling, only copy number loss of LIFR gene and stage (III-IV) were independent prognostic factors of reduced OS. Our findings identified that novel loss of LIFR gene significantly correlated with the adverse clinical outcome of NKTCL patients and provided therapeutic opportunities for this disease through manipulating LIFR.
RESUMEN
Using a purpose-designed experimental model, we have defined new, statistically significant, differences in gene expression between heavily and weakly metastatic human breast cancer cell populations, in vivo and in vitro. The differences increased under selection pressures designed to increase metastatic proficiency. Conversely, the expression signatures of primary tumors generated by more aggressive variants, and their matched metastases in the lungs and lymph nodes, all tended to converge. However, the few persisting differences among these selectively enriched malignant growths in the breast, lungs, and lymph nodes were highly statistically significant, implying potential mechanistic involvement of the corresponding genes. The evidence that has emerged from the current work indicates that selective enhancement of metastatic proficiency by serial transplantation co-purifies a subliminal gene expression pattern within the tumor cell population. This signature most likely includes genes participating in metastasis pathogenesis, and we document manageable numbers of candidates for this role. The findings also suggest that metastasis to at least two different organs occurs through closely similar genetic mechanisms.