B cell deficiency induces cytotoxic memory CD8⁺ T cells during influenza-associated bacterial pneumonia

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Abstract

Influenza-associated bacterial super-infections in the lung lead to increased morbidity and mortality. Nearly all people have pre-existing memory to influenza virus, which can protect against subsequent infection in the lung. This study explored the role B cells play in protection against bacterial (Staphylococcus aureus or Klebsiella pneumoniae) super-infection with previous heterotypic influenza memory. B cell deficiency resulted in an increased inflammatory lung environment and lung tissue injury during super-infection. Loss of B cells increased populations of memory CD8+ T cells in the lung and these CD8+ T cells were transcriptionally and functionally distinct from WT mice. Use of antibody-deficient mouse models showed that this phenotype was specifically due to loss of antibody production from B cells. Passive immunization with influenza-antibody serum in B cell deficient mice rescued the CD8+ T cell phenotype. CD8+ T cell depletion and lethal super-infection challenge experiments showed that the cytotoxic memory CD8+ T cells from B cell deficient mice protect against super-infection bacterial burden and mortality. These findings provide insight into the importance of B cells for regulating immune responses against infection.

Authors

Leigh M. Miller, Alexis M. Duray, Ellyse M. Cipolla, Flavia Rago, Brooke P. Dresden, Kristen L. Parenteau, Abhigya Gupta, John F. Alcorn