Bone marrow is the preferred site of memory CD4+ T cell proliferation during recovery from sepsis
Tomasz Skirecki, … , Dominika Nowis, Ewa Kozłowska
Tomasz Skirecki, … , Dominika Nowis, Ewa Kozłowska
Published May 21, 2020
Citation Information: JCI Insight. 2020;5(10):e134475. https://doi.org/10.1172/jci.insight.134475.
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Research Article Immunology Infectious disease

Bone marrow is the preferred site of memory CD4+ T cell proliferation during recovery from sepsis

Abstract

Sepsis survivors suffer from increased vulnerability to infections, and lymphopenia presumably contributes to this problem. The mechanisms of the recovery of memory CD4+ T cells after sepsis remain elusive. We used the cecal ligation and puncture mouse model of sepsis to study the restoration of the memory CD4+ T cells during recovery from sepsis. Then, adoptive transfer of antigen-specific naive CD4+ T cells followed by immunization and BrdU labeling were performed to trace the proliferation and migration of memory CD4+ T cells. We revealed that the bone marrow (BM) is the primary site of CD4+ memory T cell homing and proliferation after sepsis-induced lymphopenia. Of interest, BM CD4+ T cells had a higher basal proliferation rate in comparison with splenic T cells. These cells also show features of resident memory T cells yet have the capacity to migrate outside the BM niche and engraft secondary lymphoid organs. The BM niche also sustains viability and functionality of CD4+ T cells. We also identified IL-7 as the major inducer of proliferation of the BM memory CD4+ T cells and showed that recombinant IL-7 improves the recovery of these cells. Taken together, we provide data on the mechanism and location of memory CD4+ T cell proliferation during recovery from septic lymphopenia, which are of relevance in studying immunostimulatory therapies in sepsis.

Authors

Tomasz Skirecki, Patrycja Swacha, Grażyna Hoser, Jakub Golab, Dominika Nowis, Ewa Kozłowska

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Figure 1

Sepsis induces changes in CD4+ T cell subsets’ frequency.

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Sepsis induces changes in CD4+ T cell subsets’ frequency. (A) Representa...
(A) Representative flow cytometry plots showing CD4+ T cell gating strategy used for the analysis of naive (CD44CD62L+), central memory (CD44+CD62L+), effector memory (CD44+CD62L), and effector (CD44CD62L) CD4+ T cells. (B) Changes in the frequencies of CD4+ T cells in the lymph nodes after sepsis (left), with shifts in subset composition of the CD4+ T cells after sepsis (right graph). (C) Changes in the frequencies of CD4+ T cells in the spleen after sepsis (left), with shifts in subset composition of the CD4+ T cells after sepsis (right graph). (D) Changes in the frequencies of CD4+ T cells in the BM after sepsis (left), with shifts in subset composition of the CD4+ T cells after sepsis (right graph). Box-and-whiskers plots present 25th through 75th percentiles (p25-p75) (box), mean, and p10-p90 (whiskers). Data from 2 independent experiments (n = 6–8 in each group). *P < 0.05, and ***P < 0.001 using ANOVA with Tukey’s post hoc test. Superimposed graphs: sign on the left side of bar represents P < 0.05 between day 7 and controls; sign on the right side of bar represents P < 0.05 between days 14 and 7. “*” represents differences between effector; “&” effector memory; “#” central memory; and “§” naive CD4+ T cells at different time points using ANOVA with Tukey’s post hoc test.