T cell–derived tumor necrosis factor induces cytotoxicity by activating RIPK1-dependent target cell death
Nicholas Chun, Rosalind L. Ang, Mark Chan, Robert L. Fairchild, William M. Baldwin III, Julian K. Horwitz, Jesse D. Gelles, Jerry Edward Chipuk, Michelle A. Kelliher, Vasile I. Pavlov, Yansui Li, Dirk Homann, Peter S. Heeger, Adrian T. Ting
Nicholas Chun, Rosalind L. Ang, Mark Chan, Robert L. Fairchild, William M. Baldwin III, Julian K. Horwitz, Jesse D. Gelles, Jerry Edward Chipuk, Michelle A. Kelliher, Vasile I. Pavlov, Yansui Li, Dirk Homann, Peter S. Heeger, Adrian T. Ting
View: Text | PDF
Research Article Cell biology Immunology

T cell–derived tumor necrosis factor induces cytotoxicity by activating RIPK1-dependent target cell death

Abstract

TNF ligation of TNF receptor 1 (TNFR1) promotes either inflammation and cell survival by (a) inhibiting RIPK1’s death-signaling function and activating NF-κB or (b) causing RIPK1 to associate with the death-inducing signaling complex to initiate apoptosis or necroptosis. The cellular source of TNF that results in RIPK1-dependent cell death remains unclear. To address this, we employed in vitro systems and murine models of T cell–dependent transplant or tumor rejection in which target cell susceptibility to RIPK1-dependent cell death could be genetically altered. We show that TNF released by T cells is necessary and sufficient to activate RIPK1-dependent cell death in target cells and thereby mediate target cell cytolysis independently of T cell frequency. Activation of the RIPK1-dependent cell death program in target cells by T cell–derived TNF accelerates murine cardiac allograft rejection and synergizes with anti-PD1 administration to destroy checkpoint blockade–resistant murine melanoma. Together, the findings uncover a distinct immunological role for TNF released by cytotoxic effector T cells following cognate interactions with their antigenic targets. Manipulating T cell TNF and/or target cell susceptibility to RIPK1-dependent cell death can be exploited to either mitigate or augment T cell–dependent destruction of allografts and malignancies to improve outcomes.

Authors

Nicholas Chun, Rosalind L. Ang, Mark Chan, Robert L. Fairchild, William M. Baldwin III, Julian K. Horwitz, Jesse D. Gelles, Jerry Edward Chipuk, Michelle A. Kelliher, Vasile I. Pavlov, Yansui Li, Dirk Homann, Peter S. Heeger, Adrian T. Ting

×

Figure 4

Donor graft susceptibility to RIPK1-dependent cell death determines kinetics of graft rejection.

Options: View larger image (or click on image) Download as PowerPoint
Donor graft susceptibility to RIPK1-dependent cell death determines kine...
(A) Experimental schematic of cardiac transplant into recipients of pooled preprimed adoptively transferred T cells. (B) Kaplan-Meier survival curves of WT, Sharpincpdm, or Ripk1D138N B6 hearts transplanted into BALB/c scid recipients of preprimed alloreactive T cells on day –1 (n = 6–8, *P < 0.05 versus WT condition, by Mantel Cox log rank test). (C and D) Quantified frequencies of donor reactive IFN-γ– (top) or TNF-producing (bottom) graft-infiltrating CD8+ T cells in scid recipients of adoptively transferred allo-primed T cells at 10 days after transplant (n = 4/group); t test. Each symbol is a biological replicate. (E) Representative (of 3 individual biological replicates) flow cytometry plots of splenic CD8+ T cells obtained from BALB/c–heart transplanted B6 WT or Tnf–/– recipients on day 7 showing comparable frequencies of donor-reactive CD107a/b (top), IFN-γ–producing (middle), and TNF-producing (bottom) CD8+ T cells. (F) Kaplan-Meier survival curves of WT BALB/c allografts subjected to 8h CIS and transplanted into Rag1–/– B6 recipients of preprimed WT or TNF-deficient B6 T cells (n = 5–6/group). *P < 0.05 relative to WT T cells by Mantel Cox log rank test.