A20 as an immune tolerance factor can determine islet transplant outcomes
Nathan W. Zammit, Stacey N. Walters, Karen L. Seeberger, Philip J. O’Connell, Gregory S. Korbutt, Shane T. Grey
Nathan W. Zammit, Stacey N. Walters, Karen L. Seeberger, Philip J. O’Connell, Gregory S. Korbutt, Shane T. Grey
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Research Article Inflammation Transplantation

A20 as an immune tolerance factor can determine islet transplant outcomes

Abstract

Islet transplantation can restore lost glycemic control in type 1 diabetes subjects but is restricted in its clinical application by a limiting supply of islets and the need for heavy immune suppression to prevent rejection. TNFAIP3, encoding the ubiquitin editing enzyme A20, regulates the activation of immune cells by raising NF-κB signaling thresholds. Here, we show that increasing A20 expression in allogeneic islet grafts resulted in permanent survival for ~45% of recipients, and > 80% survival when combined with subtherapeutic rapamycin. Allograft survival was dependent upon Tregs and was antigen specific, and grafts showed reduced expression of inflammatory factors. Transplantation of islets with A20 containing a loss-of-function variant (I325N) resulted in increased RIPK1 ubiquitination and NF-κB signaling, graft hyperinflammation, and acute allograft rejection. Overexpression of A20 in human islets potently reduced expression of inflammatory mediators, with no impact on glucose-stimulated insulin secretion. Therapeutic administration of A20 raises inflammatory signaling thresholds to favor immune tolerance and promotes islet allogeneic survival. Clinically, this would allow for reduced immunosuppression and support the use of alternate islet sources.

Authors

Nathan W. Zammit, Stacey N. Walters, Karen L. Seeberger, Philip J. O’Connell, Gregory S. Korbutt, Shane T. Grey

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Figure 8

A20 expression inhibits human islet inflammation.

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A20 expression inhibits human islet inflammation. (A) Human islets trans...
(A) Human islets transduced with an adenovirus encoding for GFP (rAd.GFP) at multiplicity of infections indicated or left noninfected (NI). Twenty-four hours after transduction, islets were digested to single cells, and the percent of GFP+ cells was determined by flow cytometry. Each dot per column represents an independent human donor. (B) Donor human islet preparations were transduced with rAd.GFP at a MOI of 10:1 or left noninfected (NI). Forty-eight hours after transduction, islets were fixed for immunofluorescence analysis. Assessed proteins are indicated below each panel. Scale bar: 50 μm. (C and D) Donor human islets transduced with rAd.GFP or A20 at a MOI of 10:1. Forty-eight hours after transduction, cells were lysed and assessed for (C) A20 RNA expression and (D) protein levels. (E) Function of infected islets were assessed in a glucose-stimulated secretion assay. Stimulation index indicates the amount of insulin in supernatant in high glucose/low glucose. (F) GFP- and A20-transduced donor islets stimulated with TNF for the indicated times and expression of inflammatory genes assessed. Data in AF are cumulative from 3 independent human donor islet preparations. Error bars ± SEM and statistical significance determined by 2-way ANOVA with Sidak’s multiple comparisons post hoc test; * P < 0.05; ****P < 0.0001.