Oral squamous cell carcinoma (OSCC) remains one of the most prevalent and aggressive forms of oral cancer, with a notoriously poor prognosis. While risk factors like tobacco use and alcohol consumption have long been established, an emerging body of research highlights the significant role of the oral microbiota in cancer progression. Among the most intriguing discoveries is how an imbalance in the oral microbiome, particularly through periodontal pathogens, may influence OSCC development. Yet, the specific mechanisms behind how oral bacteria interact with host cells and impact tumor growth have remained largely unexplored—until now.

Published (DOI: 10.1038/s41368-024-00326-8) in the January 2, 2025, issue of the International Journal of Oral Science, researchers from the Universidad de Concepción in Chile have tackled this knowledge gap by analyzing the computational proteomic landscape of oral cancer. The study uncovers how Fusobacterium nucleatum, a bacterium frequently found in the oral cavity, interacts with host cells, promoting tumor growth and progression through distinct metabolic pathways.

The research team conducted a comprehensive proteomic analysis, comparing the secretome of OSCC patients to that of healthy controls. Their findings revealed a significant upregulation of host proteins related to the immune response to lipopolysaccharide (LPS), cell migration, and amino acid metabolism in cancerous samples. Fusobacterium nucleatum was notably abundant in OSCC tissues and actively participated in the conversion of L-glutamate to butyrate, a metabolite known to foster cancer cell proliferation. Moreover, the bacterium modulated the cystine/glutamate antiporter, boosting its activity to enhance bacterial infection and promote epithelial-mesenchymal transition (EMT), a process crucial for cancer spread. This complex interplay between oral bacteria and cancer cells offers new insights into the molecular mechanisms of OSCC, presenting novel potential targets for therapeutic intervention.

Dr. Estefanía Nova-Lamperti, the lead researcher of the study, emphasized the significance of these findings, stating, “Understanding the intricate interactions between oral bacteria and cancer cells is essential for advancing our approach to cancer treatment. Our study on Fusobacterium nucleatum provides a deeper understanding of how the oral microbiome influences OSCC progression, offering new potential for targeted therapies. By focusing on specific metabolic pathways, we can work to inhibit cancer progression and improve patient outcomes. This research underscores the need to integrate microbiome factors into cancer biology and treatment strategies.”

This groundbreaking research has wide-reaching implications for the future of OSCC diagnosis and treatment. Targeting the metabolic pathways influenced by Fusobacterium nucleatum could hold the key to halting cancer progression, while enhancing the effectiveness of existing therapies. Moreover, the study reinforces the importance of maintaining good oral hygiene to prevent dysbiosis, which could contribute to cancer development. Looking ahead, these findings open the door for exploring the role of the oral microbiome in other forms of cancer, potentially leading to innovative therapeutic approaches. Ultimately, this research highlights the need for a more comprehensive understanding of cancer, one that considers the complex interactions between the microbiome and host cells, to improve treatment strategies and patient care.

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References

DOI

10.1038/s41368-024-00326-8

Original Source URL

https://doi.org/10.1038/s41368-024-00326-8

Funding information

This work was supported by Agencia Nacional de Investigación y Desarrollo (ANID), Chilean Government Fondecyt Regular 1211480. C.M. was supported by a Master ANID Scholarship. EN-L, AV, SS, CC, RQ, and BA were funded by ANID/Fondecyt Regular 1211480. Flow Cytometer was funded by EQM150061 (FONDEQUIP-ANID).

About International Journal of Oral Science

International Journal of Oral Science (ISSN 1674-2818) was founded in 2009 and aims to publish all aspects of oral science and interdisciplinary fields, including fundamental, applied and clinical research. Covered areas include oral microbiology, oral and maxillofacial oncology, cariology, oral inflammation and infection, dental stem cells and regenerative medicine, craniofacial surgery, dental materials, oral biomechanics, oral, dental and maxillofacial genetic and developmental diseases.