Host-microbe computational proteomic landscape in oral cancer revealed key functional and metabolic pathways between Fusobacterium nucleatum and cancer progression

Camila Paz Muñoz-Grez; Mabel Angélica Vidal; Tamara Beatriz Rojas; Luciano Esteban Ferrada; Felipe Andrés Zuñiga; Agustin Andrés Vera; Sergio Andrés Sanhueza; Romina Andrea Quiroga; Camilo Daniel Cabrera; Barbara Evelyn Antilef; Ricardo Andrés Cartes; Milovan Paolo Acevedo; Marco Andrés Fraga; Pedro Felipe Alarcón-Zapata; Mauricio Alejandro Hernández; Alexis Marcelo Salas-Burgos; Francisco Tapia-Belmonte; Milly Loreto Yáñez; Erick Marcelo Riquelme; Wilfredo Alejandro González; Cesar Andrés Rivera; Angel Alejandro Oñate; Liliana Ivonne Lamperti; Estefanía Nova-Lamperti

doi:10.1038/s41368-024-00326-8

Host-microbe computational proteomic landscape in oral cancer revealed key functional and metabolic pathways between Fusobacterium nucleatum and cancer progression

Camila Paz Muñoz-Grez, Mabel Angélica Vidal, Tamara Beatriz Rojas, Luciano Esteban Ferrada, Felipe Andrés Zuñiga, Agustin Andrés Vera, Sergio Andrés Sanhueza, Romina Andrea Quiroga, Camilo Daniel Cabrera, Barbara Evelyn Antilef, Ricardo Andrés Cartes, Milovan Paolo Acevedo, Marco Andrés Fraga, Pedro Felipe Alarcón-Zapata, Mauricio Alejandro Hernández, Alexis Marcelo Salas-Burgos, Francisco Tapia-Belmonte, Milly Loreto Yáñez, Erick Marcelo Riquelme, Wilfredo Alejandro GonzálezCesar Andrés Rivera, Angel Alejandro Oñate, Liliana Ivonne Lamperti, Estefanía Nova-Lamperti

Universidad de los Andes

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Oral squamous cell carcinoma (OSCC) is the most common manifestation of oral cancer. It has been proposed that periodontal pathogens contribute to OSCC progression, mainly by their virulence factors. However, the main periodontal pathogen and its mechanism to modulate OSCC cells remains not fully understood. In this study we investigate the main host-pathogen pathways in OSCC by computational proteomics and the mechanism behind cancer progression by the oral microbiome. The main host-pathogen pathways were analyzed in the secretome of biopsies from patients with OSCC and healthy controls by mass spectrometry. Then, functional assays were performed to evaluate the host-pathogen pathways highlighted in oral cancer. Host proteins associated with LPS response, cell migration/adhesion, and metabolism of amino acids were significantly upregulated in the human cancer proteome, whereas the complement cascade was downregulated in malignant samples. Then, the microbiome analysis revealed large number and variety of peptides from Fusobacterium nucleatum (F. nucleatum) in OSCC samples, from which several enzymes from the L-glutamate degradation pathway were found, indicating that L-glutamate from cancer cells is used as an energy source, and catabolized into butyrate by the bacteria. In fact, we observed that F. nucleatum modulates the cystine/glutamate antiporter in an OSCC cell line by increasing SLC7A11 expression, promoting L-glutamate efflux and favoring bacterial infection. Finally, our results showed that F. nucleatum and its metabolic derivates promote tumor spheroids growth, spheroids-derived cell detachment, epithelial-mesenchymal transition and Galectin-9 upregulation. Altogether, F. nucleatum promotes pro-tumoral mechanism in oral cancer.

Original language	English
Pages (from-to)	1
Journal	International journal of oral science
Volume	17
Issue number	1
DOIs	https://doi.org/10.1038/s41368-024-00326-8
State	Published - 2 Jan 2025

Bibliographical note

Keywords

Humans
Fusobacterium nucleatum/metabolism
Mouth Neoplasms/microbiology
Disease Progression
Proteomics
Carcinoma, Squamous Cell/microbiology
Host-Pathogen Interactions
Metabolic Networks and Pathways
Case-Control Studies
Mass Spectrometry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41368-024-00326-8

Cite this

Muñoz-Grez, C. P., Vidal, M. A., Rojas, T. B., Ferrada, L. E., Zuñiga, F. A., Vera, A. A., Sanhueza, S. A., Quiroga, R. A., Cabrera, C. D., Antilef, B. E., Cartes, R. A., Acevedo, M. P., Fraga, M. A., Alarcón-Zapata, P. F., Hernández, M. A., Salas-Burgos, A. M., Tapia-Belmonte, F., Yáñez, M. L., Riquelme, E. M., ... Nova-Lamperti, E. (2025). Host-microbe computational proteomic landscape in oral cancer revealed key functional and metabolic pathways between Fusobacterium nucleatum and cancer progression. International journal of oral science, 17(1), 1. https://doi.org/10.1038/s41368-024-00326-8

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title = "Host-microbe computational proteomic landscape in oral cancer revealed key functional and metabolic pathways between Fusobacterium nucleatum and cancer progression",

abstract = "Oral squamous cell carcinoma (OSCC) is the most common manifestation of oral cancer. It has been proposed that periodontal pathogens contribute to OSCC progression, mainly by their virulence factors. However, the main periodontal pathogen and its mechanism to modulate OSCC cells remains not fully understood. In this study we investigate the main host-pathogen pathways in OSCC by computational proteomics and the mechanism behind cancer progression by the oral microbiome. The main host-pathogen pathways were analyzed in the secretome of biopsies from patients with OSCC and healthy controls by mass spectrometry. Then, functional assays were performed to evaluate the host-pathogen pathways highlighted in oral cancer. Host proteins associated with LPS response, cell migration/adhesion, and metabolism of amino acids were significantly upregulated in the human cancer proteome, whereas the complement cascade was downregulated in malignant samples. Then, the microbiome analysis revealed large number and variety of peptides from Fusobacterium nucleatum (F. nucleatum) in OSCC samples, from which several enzymes from the L-glutamate degradation pathway were found, indicating that L-glutamate from cancer cells is used as an energy source, and catabolized into butyrate by the bacteria. In fact, we observed that F. nucleatum modulates the cystine/glutamate antiporter in an OSCC cell line by increasing SLC7A11 expression, promoting L-glutamate efflux and favoring bacterial infection. Finally, our results showed that F. nucleatum and its metabolic derivates promote tumor spheroids growth, spheroids-derived cell detachment, epithelial-mesenchymal transition and Galectin-9 upregulation. Altogether, F. nucleatum promotes pro-tumoral mechanism in oral cancer.",

keywords = "Humans, Fusobacterium nucleatum/metabolism, Mouth Neoplasms/microbiology, Disease Progression, Proteomics, Carcinoma, Squamous Cell/microbiology, Host-Pathogen Interactions, Metabolic Networks and Pathways, Case-Control Studies, Mass Spectrometry",

author = "Mu{\~n}oz-Grez, {Camila Paz} and Vidal, {Mabel Ang{\'e}lica} and Rojas, {Tamara Beatriz} and Ferrada, {Luciano Esteban} and Zu{\~n}iga, {Felipe Andr{\'e}s} and Vera, {Agustin Andr{\'e}s} and Sanhueza, {Sergio Andr{\'e}s} and Quiroga, {Romina Andrea} and Cabrera, {Camilo Daniel} and Antilef, {Barbara Evelyn} and Cartes, {Ricardo Andr{\'e}s} and Acevedo, {Milovan Paolo} and Fraga, {Marco Andr{\'e}s} and Alarc{\'o}n-Zapata, {Pedro Felipe} and Hern{\'a}ndez, {Mauricio Alejandro} and Salas-Burgos, {Alexis Marcelo} and Francisco Tapia-Belmonte and Y{\'a}{\~n}ez, {Milly Loreto} and Riquelme, {Erick Marcelo} and Gonz{\'a}lez, {Wilfredo Alejandro} and Rivera, {Cesar Andr{\'e}s} and O{\~n}ate, {Angel Alejandro} and Lamperti, {Liliana Ivonne} and Estefan{\'i}a Nova-Lamperti",

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doi = "10.1038/s41368-024-00326-8",

language = "English",

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Muñoz-Grez, CP, Vidal, MA, Rojas, TB, Ferrada, LE, Zuñiga, FA, Vera, AA, Sanhueza, SA, Quiroga, RA, Cabrera, CD, Antilef, BE, Cartes, RA, Acevedo, MP, Fraga, MA, Alarcón-Zapata, PF, Hernández, MA, Salas-Burgos, AM, Tapia-Belmonte, F, Yáñez, ML, Riquelme, EM, González, WA, Rivera, CA, Oñate, AA, Lamperti, LI & Nova-Lamperti, E 2025, 'Host-microbe computational proteomic landscape in oral cancer revealed key functional and metabolic pathways between Fusobacterium nucleatum and cancer progression', International journal of oral science, vol. 17, no. 1, pp. 1. https://doi.org/10.1038/s41368-024-00326-8

Host-microbe computational proteomic landscape in oral cancer revealed key functional and metabolic pathways between Fusobacterium nucleatum and cancer progression. / Muñoz-Grez, Camila Paz; Vidal, Mabel Angélica; Rojas, Tamara Beatriz et al.
In: International journal of oral science, Vol. 17, No. 1, 02.01.2025, p. 1.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Host-microbe computational proteomic landscape in oral cancer revealed key functional and metabolic pathways between Fusobacterium nucleatum and cancer progression

AU - Muñoz-Grez, Camila Paz

AU - Vidal, Mabel Angélica

AU - Rojas, Tamara Beatriz

AU - Ferrada, Luciano Esteban

AU - Zuñiga, Felipe Andrés

AU - Vera, Agustin Andrés

AU - Sanhueza, Sergio Andrés

AU - Quiroga, Romina Andrea

AU - Cabrera, Camilo Daniel

AU - Antilef, Barbara Evelyn

AU - Cartes, Ricardo Andrés

AU - Acevedo, Milovan Paolo

AU - Fraga, Marco Andrés

AU - Alarcón-Zapata, Pedro Felipe

AU - Hernández, Mauricio Alejandro

AU - Salas-Burgos, Alexis Marcelo

AU - Tapia-Belmonte, Francisco

AU - Yáñez, Milly Loreto

AU - Riquelme, Erick Marcelo

AU - González, Wilfredo Alejandro

AU - Rivera, Cesar Andrés

AU - Oñate, Angel Alejandro

AU - Lamperti, Liliana Ivonne

AU - Nova-Lamperti, Estefanía

PY - 2025/1/2

Y1 - 2025/1/2

N2 - Oral squamous cell carcinoma (OSCC) is the most common manifestation of oral cancer. It has been proposed that periodontal pathogens contribute to OSCC progression, mainly by their virulence factors. However, the main periodontal pathogen and its mechanism to modulate OSCC cells remains not fully understood. In this study we investigate the main host-pathogen pathways in OSCC by computational proteomics and the mechanism behind cancer progression by the oral microbiome. The main host-pathogen pathways were analyzed in the secretome of biopsies from patients with OSCC and healthy controls by mass spectrometry. Then, functional assays were performed to evaluate the host-pathogen pathways highlighted in oral cancer. Host proteins associated with LPS response, cell migration/adhesion, and metabolism of amino acids were significantly upregulated in the human cancer proteome, whereas the complement cascade was downregulated in malignant samples. Then, the microbiome analysis revealed large number and variety of peptides from Fusobacterium nucleatum (F. nucleatum) in OSCC samples, from which several enzymes from the L-glutamate degradation pathway were found, indicating that L-glutamate from cancer cells is used as an energy source, and catabolized into butyrate by the bacteria. In fact, we observed that F. nucleatum modulates the cystine/glutamate antiporter in an OSCC cell line by increasing SLC7A11 expression, promoting L-glutamate efflux and favoring bacterial infection. Finally, our results showed that F. nucleatum and its metabolic derivates promote tumor spheroids growth, spheroids-derived cell detachment, epithelial-mesenchymal transition and Galectin-9 upregulation. Altogether, F. nucleatum promotes pro-tumoral mechanism in oral cancer.

AB - Oral squamous cell carcinoma (OSCC) is the most common manifestation of oral cancer. It has been proposed that periodontal pathogens contribute to OSCC progression, mainly by their virulence factors. However, the main periodontal pathogen and its mechanism to modulate OSCC cells remains not fully understood. In this study we investigate the main host-pathogen pathways in OSCC by computational proteomics and the mechanism behind cancer progression by the oral microbiome. The main host-pathogen pathways were analyzed in the secretome of biopsies from patients with OSCC and healthy controls by mass spectrometry. Then, functional assays were performed to evaluate the host-pathogen pathways highlighted in oral cancer. Host proteins associated with LPS response, cell migration/adhesion, and metabolism of amino acids were significantly upregulated in the human cancer proteome, whereas the complement cascade was downregulated in malignant samples. Then, the microbiome analysis revealed large number and variety of peptides from Fusobacterium nucleatum (F. nucleatum) in OSCC samples, from which several enzymes from the L-glutamate degradation pathway were found, indicating that L-glutamate from cancer cells is used as an energy source, and catabolized into butyrate by the bacteria. In fact, we observed that F. nucleatum modulates the cystine/glutamate antiporter in an OSCC cell line by increasing SLC7A11 expression, promoting L-glutamate efflux and favoring bacterial infection. Finally, our results showed that F. nucleatum and its metabolic derivates promote tumor spheroids growth, spheroids-derived cell detachment, epithelial-mesenchymal transition and Galectin-9 upregulation. Altogether, F. nucleatum promotes pro-tumoral mechanism in oral cancer.

KW - Humans

KW - Fusobacterium nucleatum/metabolism

KW - Mouth Neoplasms/microbiology

KW - Disease Progression

KW - Proteomics

KW - Carcinoma, Squamous Cell/microbiology

KW - Host-Pathogen Interactions

KW - Metabolic Networks and Pathways

KW - Case-Control Studies

KW - Mass Spectrometry

U2 - 10.1038/s41368-024-00326-8

DO - 10.1038/s41368-024-00326-8

M3 - Article

C2 - 39743544

SN - 1674-2818

VL - 17

SP - 1

JO - International journal of oral science

JF - International journal of oral science

IS - 1

ER -

Host-microbe computational proteomic landscape in oral cancer revealed key functional and metabolic pathways between Fusobacterium nucleatum and cancer progression

Abstract

Bibliographical note

Keywords

UN SDGs

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