Promotes Synchronous Multiple Primary Lung Cancer Progression Through Apoptosis Regulation

Overview

Journal Front Immunol

Date 2025 Jan 24

PMID 39850896

Authors

Yi Deng

Zhi Xiang Dong

Gao Hua Yang

William S Krimsky

Yong Hang Tai

Hao Peng

Gui Ting Huang

Jia Xin Xu

Saiyad A Sarkar

Jun Peng

Kai Qian

Affiliations

Soon will be listed here.

Abstract

Background: Dysbiosis of the lung microbiome can contribute to the initiation and progression of lung cancer. Synchronous multiple primary lung cancer (sMPLC) is an increasingly recognized subtype of lung cancer characterized by high morbidity, difficulties in early detection, poor prognosis, and substantial clinical challenges. However, the relationship between sMPLC pathogenesis and changes in the lung microbiome remains unclear.

Methods: In this study, 16S rRNA sequencing was performed on clinical samples to analyze lung microbiome composition. Real-time quantitative PCR (qPCR) was used to quantify bacterial abundance in lung tissues. In addition, flow cytometry was conducted to evaluate cell cycle progression and apoptosis in lung tumor cells.

Results: Clinical cohort studies demonstrated that sMPLC occurrence is associated with disturbances in the lung microbiome. Notably, Streptococcus intermedius was enriched in the lungs of sMPLC patients compared with non-tumor controls and accumulated preferentially in tumor tissues. shortened the cell cycle and inhibited apoptosis in lung cancer cells. Analyses of oral and gut microbiomes in different patient cohorts revealed a strong correlation between oral microbiome imbalances and lung microbiome composition in sMPLC patients.

Conclusions: These findings characterize the lung microbiota in sMPLC and identify as a potentially influential bacterial strain. This study provides significant new insights into the diagnosis and treatment of sMPLC.

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