金田 篤志

The relationship between cancer prognosis and intratumoral microbiome has recently gained attention. Regarding lung cancer, most studies have focused on bacteria outside tumors, such as sputum or lavage fluid, with few examining intratumoral bacteria and their impact on prognosis. In this study, we extracted DNA from lung tumor samples of 507 patients undergoing surgery at Chiba University Hospital and quantified intratumoral bacterial abundance using bacteria-specific PCR primers. Bacteria were detected in 77.1% of cases, and bacterial abundance was significantly higher in lung adenocarcinoma than in squamous cell carcinoma. Patients were categorized into three groups (High, Low, and Very-Low) based on bacterial abundance, and associations with clinicopathological factors were analyzed. In lung squamous cell carcinoma, higher bacterial abundance was significantly associated with worse recurrent-free survival and overall survival and was found to be a poor prognostic factor independent of pathological tumor stage. In conclusion, intratumoral bacterial abundance was found in the majority of lung cancer tissues, with variations based on pathology. This abundance may serve as a useful marker for stratifying lung squamous cell carcinoma with distinct prognoses.

Tumor progression is suppressed by inherent cellular mechanisms such as apoptosis. The p53 tumor suppressor gene is the most commonly mutated gene in human cancer and plays a pivotal role in tumor suppression. RPRM is a target gene of p53 known to be involved in tumor suppression, but its molecular function has remained elusive. Here, we report that Reprimo (the protein product of RPRM) is secreted and extrinsically induces apoptosis in recipient cells. We identified FAT1, FAT4, CELSR1, CELSR2, and CELSR3, members of the protocadherin family, as receptors for Reprimo. Subsequent analyses revealed that Reprimo acts upstream of the Hippo-YAP/TAZ-p73 axis and induces apoptosis by transactivating various proapoptotic genes. In vivo analyses further support the tumor-suppressive effects of secreted Reprimo. These findings identify the p53-Reprimo-Hippo-YAP/TAZ-p73 axis as an extrinsic apoptosis pathway that plays a crucial role in tumor suppression. Our finding of the innate tumor eliminator Reprimo and the downstream pathway offers a promising avenue for the pharmacological treatment of cancer.