Respiratory viral infection promotes the awakening and outgrowth of dormant metastatic breast cancer cells in lungs

Breast cancer is the second most common cancer globally. Most deaths from breast cancer are due to metastatic disease which often follows long periods of clinical dormancy . Understanding the mechanisms that disrupt the quiescence of dormant disseminated cancer cells (DCC) is crucial for addressing...

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Main Authors Chia, Shi B, Johnson, Bryan J, Hu, Junxiao, Vermeulen, Roel, Chadeau-Hyam, Marc, Guntoro, Fernando, Montgomery, Hugh, Boorgula, Meher Preethi, Sreeka, Varsha, Goodspeed, Andrew, Davenport, Bennett, Pereira, Felipe V, Zaberezhnyy, Vadym, Schleicher, Wolfgang E, Gao, Dexiang, Cadar, Andreia N, Papanicolaou, Michael, Beheshti, Afshin, Baylin, Stephen B, Costello, James, Bartley, Jenna M, Morrison, Thomas E, Aguirre-Ghiso, Julio A, Rincon, Mercedes, DeGregori, James
Format Journal Article
LanguageEnglish
Published United States 05.04.2024
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Summary:Breast cancer is the second most common cancer globally. Most deaths from breast cancer are due to metastatic disease which often follows long periods of clinical dormancy . Understanding the mechanisms that disrupt the quiescence of dormant disseminated cancer cells (DCC) is crucial for addressing metastatic progression. Infection with respiratory viruses (e.g. influenza or SARS-CoV-2) is common and triggers an inflammatory response locally and systemically . Here we show that influenza virus infection leads to loss of the pro-dormancy mesenchymal phenotype in breast DCC in the lung, causing DCC proliferation within days of infection, and a greater than 100-fold expansion of carcinoma cells into metastatic lesions within two weeks. Such DCC phenotypic change and expansion is interleukin-6 (IL-6)-dependent. We further show that CD4 T cells are required for the maintenance of pulmonary metastatic burden post-influenza virus infection, in part through attenuation of CD8 cell responses in the lungs. Single-cell RNA-seq analyses reveal DCC-dependent impairment of T-cell activation in the lungs of infected mice. SARS-CoV-2 infected mice also showed increased breast DCC expansion in lungs post-infection. Expanding our findings to human observational data, we observed that cancer survivors contracting a SARS-CoV-2 infection have substantially increased risks of lung metastatic progression and cancer-related death compared to cancer survivors who did not. These discoveries underscore the significant impact of respiratory viral infections on the resurgence of metastatic cancer, offering novel insights into the interconnection between infectious diseases and cancer metastasis.