TGF-β receptor maintains CD4 T helper cell identity during chronic viral infections
Gavin M. Lewis, … , Hendrik Streeck, Elina I. Zuniga
Gavin M. Lewis, … , Hendrik Streeck, Elina I. Zuniga
Published September 6, 2016
Citation Information: J Clin Invest. 2016;126(10):3799-3813. https://doi.org/10.1172/JCI87041.
View: Text | PDF
Research Article Immunology

TGF-β receptor maintains CD4 T helper cell identity during chronic viral infections

Abstract

Suppression of CD8 and CD4 T cells is a hallmark in chronic viral infections, including hepatitis C and HIV. While multiple pathways are known to inhibit CD8 T cells, the host molecules that restrict CD4 T cell responses are less understood. Here, we used inducible and CD4 T cell–specific deletion of the gene encoding the TGF-β receptor during chronic lymphocytic choriomeningitis virus infection in mice, and determined that TGF-β signaling restricted proliferation and terminal differentiation of antiviral CD4 T cells. TGF-β signaling also inhibited a cytotoxic program that includes granzymes and perforin expression at both early and late stages of infection in vivo and repressed the transcription factor eomesodermin. Overexpression of eomesodermin was sufficient to recapitulate in great part the phenotype of TGF-β receptor–deficient CD4 T cells, while SMAD4 was necessary for CD4 T cell accumulation and differentiation. TGF-β signaling also restricted accumulation and differentiation of CD4 T cells and reduced the expression of cytotoxic molecules in mice and humans infected with other persistent viruses. These data uncovered an eomesodermin-driven CD4 T cell program that is continuously suppressed by TGF-β signaling. During chronic viral infection, this program limits CD4 T cell responses while maintaining CD4 T helper cell identity.

Authors

Gavin M. Lewis, Ellen J. Wehrens, Lara Labarta-Bajo, Hendrik Streeck, Elina I. Zuniga

×

Figure 5

EOMES regulates accumulation and differentiation of CD4 T cells during chronic LCMV infection.

Options: View larger image (or click on image) Download as PowerPoint
EOMES regulates accumulation and differentiation of CD4 T cells during c...
LCMV-specific SMARTA+ CD4 T cells (congenic CD45.1) were retrovirally transduced with constitutively active EOMES (EOVP16), dominant-negative EOMES (EODN), or empty vector MSCV-GFP (MIG) and transferred into C57BL/6 mice 24 hours before infection and analyzed 9 days later in the indicated tissue. (A) Number of SMARTA T cells in the blood. (B) Expression of PSGL1 and Ly6C in cells from A. (C and D) Number and percentage of transduced SMARTA cells (C) expressing PSGL1 and Ly6C (D) in the spleen. (E) MIG-EOVP16 and MSCV-Thy1.1+ empty vector–transduced SMARTA+ T cells were cotransferred into the same host and splenic SMARTA cells analyzed by microarray. Overlap of significantly regulated genes by TGFβ-RII KO (from Figure 3) and EOMES overexpression. (F) Protein expression of granzyme A and B on cotransferred SMARTA T cells in spleen. (G) GSEA of TGFβ-RII–regulated genes against CD4+ CD8+ double-positive cells from Thpok–/–, CD4 T cells from Ezh2–/– mice, or EOMES overexpression from E. (H) Kinetics of viremia (PFU/ml) in mice receiving EOMES-modified cells from A. Representative of 2 to 3 independent experiments, with n = 3–6 mice per group. ANOVA (AD and H), paired t test (F), *P < 0.05, **P < 0.005, ***P < 0.0005.