[HTML][HTML] Pre-existing malignancy results in increased prevalence of distinct populations of CD4+ T cells during sepsis

J Xie, JM Robertson, C Chen, W Zhang… - PLoS …, 2018 - journals.plos.org
J Xie, JM Robertson, C Chen, W Zhang, CM Coopersmith, ML Ford
PLoS One, 2018journals.plos.org
The presence of pre-existing malignancy in murine hosts results in increased immune
dysregulation and risk of mortality following a septic insult. Based on the known systemic
immunologic changes that occur in cancer hosts, we hypothesized that the presence of pre-
existing malignancy would result in phenotypic and functional changes in CD4+ T cell
responses following sepsis. In order to conduct a non-biased, unsupervised analysis of
phenotypic differences between CD4+ T cell compartments, cohorts of mice were injected …
The presence of pre-existing malignancy in murine hosts results in increased immune dysregulation and risk of mortality following a septic insult. Based on the known systemic immunologic changes that occur in cancer hosts, we hypothesized that the presence of pre-existing malignancy would result in phenotypic and functional changes in CD4+ T cell responses following sepsis. In order to conduct a non-biased, unsupervised analysis of phenotypic differences between CD4+ T cell compartments, cohorts of mice were injected with LLC1 tumor cells and tumors were allowed to grow for 3 weeks. These cancer hosts and age-matched non-cancer controls were then subjected to CLP. Splenocytes were harvested at 24h post CLP and flow cytometry and SPADE (Spanning-tree Progression Analysis of Density-normalized Events) were used to analyze populations of CD4+ cells most different between the two groups. Results indicated that relative to non-cancer controls, cancer mice contained more resting memory CD4+ T cells, more activated CD4+ effectors, and fewer naïve CD4+ T cells during sepsis, suggesting that the CD4+ T cell compartment in cancer septic hosts is one of increased activation and differentiation. Moreover, cancer septic animals exhibited expansion of two distinct subsets of CD4+ T cells relative to previously healthy septic controls. Specifically, we identified increases in both a PD-1hi population and a distinct 2B4hi BTLAhi LAG-3hi population in cancer septic animals. By combining phenotypic analysis of exhaustion markers with functional analysis of cytokine production, we found that PD-1+ CD4+ cells in cancer hosts failed to make any cytokines following CLP, while the 2B4+ PD-1lo cells in cancer mice secreted increased TNF during sepsis. In sum, the immunophenotypic landscape of cancer septic animals is characterized by both increased CD4+ T cell activation and exhaustion, findings that may underlie the observed increased mortality in mice with pre-existing malignancy following sepsis.
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