Nox2-deficient Tregs improve heart transplant outcomes via their increased graft recruitment and enhanced potency
Silvia C. Trevelin, Anna Zampetaki, Greta Sawyer, Aleksandar Ivetic, Alison C. Brewer, Lesley Ann Smyth, Federica Marelli-Berg, Robert Köchl, Robert I. Lechler, Ajay M. Shah, Giovanna Lombardi
Silvia C. Trevelin, Anna Zampetaki, Greta Sawyer, Aleksandar Ivetic, Alison C. Brewer, Lesley Ann Smyth, Federica Marelli-Berg, Robert Köchl, Robert I. Lechler, Ajay M. Shah, Giovanna Lombardi
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Research Article Cardiology Immunology

Nox2-deficient Tregs improve heart transplant outcomes via their increased graft recruitment and enhanced potency

Abstract

Nox2 is a ROS-generating enzyme, deficiency of which increases suppression by Tregs in vitro and in an in vivo model of cardiac remodeling. As Tregs have emerged as a candidate therapy in autoimmunity and transplantation, we hypothesized that Nox2 deficiency in Tregs in recipient mice may improve outcomes in a heart transplant model. We generated a potentially novel B6129 mouse model with Treg-targeted Nox2 deletion (Nox2fl/flFoxP3Cre+ mice) and transplanted with hearts from CB6F1 donors. As compared with those of littermate controls, Nox2fl/flFoxP3Cre+ mice had lower plasma levels of alloantibodies and troponin-I, reduced levels of IFN-γ in heart allograft homogenates, and diminished cardiomyocyte necrosis and allograft fibrosis. Single-cell analyses of allografts revealed higher absolute numbers of Tregs and lower CD8+ T cell infiltration in Nox2-deficient recipients compared with Nox2-replete mice. Mechanistically, in addition to a greater suppression of CD8+CD25– T effector cell proliferation and IFN-γ production, Nox2-deficient Tregs expressed higher levels of CCR4 and CCR8, driving cell migration to allografts; this was associated with increased expression of miR-214-3p. These data indicate that Nox2 deletion in Tregs enhances their suppressive ability and migration to heart allografts. Therefore, Nox2 inhibition in Tregs may be a useful approach to improve their therapeutic efficacy.

Authors

Silvia C. Trevelin, Anna Zampetaki, Greta Sawyer, Aleksandar Ivetic, Alison C. Brewer, Lesley Ann Smyth, Federica Marelli-Berg, Robert Köchl, Robert I. Lechler, Ajay M. Shah, Giovanna Lombardi

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Figure 2

Heart allografts transplanted into Nox2fl/flFoxP3Cre+ mice have higher Treg infiltration and better outcomes.

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Heart allografts transplanted into Nox2fl/flFoxP3Cre+ mice have higher T...
Nox2fl/flFoxP3Cre+ mice and littermate controls (Nox2fl/fl) were transplanted with hearts from CB6F1 mice. Mice transplanted with hearts from C57BL/6 mice were used as isograft controls. (A) Allograft survival curves. Some mice were treated daily with cyclosporin (30 mg/kg) s.c. for 10 days after transplantation (n = 4–5 per group). (B) Plasma troponin-I levels 7 days after transplant. (C and D) Plasma alloantibodies 7 and 100 days after the transplant. Representative histograms in D show the data obtained 100 days after transplant. (n = 3–5 per group). (E) Plots represent data from 3 allografts per time evaluated. The nontransplanted group represents data from 3 native hearts of naive nontransplanted mice. (F and G) Representative plots of CD25+FoxP3+ cells within the CD4+ cell population (F) and cells/mg of heart allograft 7 days after transplant (G). (H) Treg/Teff ratios. (I and J) Presence of CD4+ and CD8+ cells in transplanted hearts. Representative plots are shown in I, and cells/mg tissue is shown in J. (K) IFN-γ levels in heart allograft homogenates 7 days after surgery. Data are shown as mean ± SEM. †P < 0.05, *P < 0.05 compared with Nox2fl/fl mice, Mantel-Cox test (A); *P < 0.05 for indicated comparisons in B and C, G and H, and J and K, using Kruskal-Wallis followed by Dunn’s post test (n = 3–5 per group).