Jie Gao

LncRNA AATBCindicates development and facilitates cell growth and metastasis of cervical cancer as a sponge ofmiR‐1245b‐5p

AbstractWith the increasing incidence and mortality rate, cervical cancer has been considered one of the most frequent malignant tumors in females. Exploration of tumor progression‐related biomarkers could facilitate the identification of novel and targeted therapy strategies. To assess the significance of lncRNA AATBC (AATBC) and its potential regulatory mechanism in cervical cancer, and to identify a potential biomarker, this study enrolled 123 patients with cervical cancer. Paired tissue samples were collected. The expression levels of AATBC and miR‐1245b‐5p were analyzed by RT‐qPCR and their significance in the development and prognosis of cervical cancer was evaluated using chi‐square and Cox analyses. In vitro, the regulatory effect of AATBC on the cellular processes of cervical cancer was estimated by CCK8 and Transwell assay. The interaction between ATTBC and miR‐1245b‐5p was assessed by luciferase reporter assay. Significant upregulation of AATBC and reduced miR‐1245b‐5p level in cervical cancer were observed, which showed a negative correlation between their expression levels. Close relationships of AATBC and miR‐1245b‐5p with the FIGO stage and lymph node metastasis were revealed. AATBC showed a significant prognostic value and miR‐1245b‐5p was found to mediate the tumor inhibitory effect of AATBC knockdown, which is speculated to be the underlying molecular mechanism of AATBC in cervical cancer development. Upregulation of AATBC indicted the malignant development and adverse prognosis of cervical cancer. AATBC served as a tumor promoter of cervical cancer by modulating miR‐1245b‐5p.

Clonal Progression of a DNA Polymerase Epsilon–Mutant Endometrial Cancer With Immune Evasion Characteristics and Metastasis

Renal transplant recipients are at significantly higher risk of developing malignancies because of chronic immunosuppression. Although DNA polymerase epsilon (POLE)-mutated endometrioid carcinoma (EC) typically presents as early-stage disease with an excellent prognosis and rare metastasis, we conducted a study on POLE-mutated EC in a transplant recipient that rapidly progressed and metastasized. We aimed to first elucidate the molecular and immunological mechanisms of rapid and malignant progression in the tumor. To understand the mechanisms underlying this atypical clinical course, we performed histological and immunohistochemical comparisons of the primary endometrial tumor and metastatic peritoneal lesions, alongside next-generation sequencing and RNA sequencing analyses. The primary and metastatic lesions shared 17 somatic mutations, indicating a common origin but demonstrated divergent evolution. Gene expression profiling revealed low CD8+ T-cell infiltration and weak interferon gamma signaling, suggesting an immunologically inactive or "immune desert" tumor microenvironment. Clonal evolution analysis showed that the POLE p.S297F mutation initiated hypermutation and clonal diversification in the primary tumor. In contrast, metastatic lesions exhibited POLE loss and activation of the BRAFV600E::PIK3CD pathway, leading to progress and immune evasion. These findings highlight a distinct evolutionary trajectory of POLE-mutated EC under immunosuppressive conditions in this case and underscore the need for tailored oncological surveillance and treatment strategies in transplant recipients.