Scientific Resources

The maintenance of homeostasis in the gut is a major challenge for the immune system. Here we demonstrate that the transcription factor MAF plays a central role in T cells for the prevention of gastro-intestinal inflammation. Conditional knock out mice lacking Maf in all T cells developed spontaneous late-onset colitis,correlating with a decrease of FOXP3+RORgammat+ T cells proportion,dampened IL-10 production in the colon and an increase of inflammatory TH17 cells. Strikingly,FOXP3+ specific conditional knock out mice for MAF did not develop colitis and demonstrated normal levels of IL-10 in their colon,despite the incapacity of regulatory T cells lacking MAF to suppress colon inflammation in Rag1-/- mice transferred with na{\{i}}ve CD4+ T cells. We showed that one of the cellular sources of IL-10 in the colon of these mice are TH17 cells. Thus MAF is critically involved in the maintenance of the gut homeostasis by regulating the balance between Treg and TH17 cells either at the level of their differentiation or through the modulation of their functions." View Publication

Regulatory T cells (Tregs) play a pivotal role in maintaining immunological tolerance,but they can also play a detrimental role by preventing antitumor responses. Here,we characterized T helper (Th)-like Treg subsets to further delineate their biological function and tissue distribution,focusing on their possible contribution to disease states. RNA sequencing and functional assays revealed that Th2-like Tregs displayed higher viability and autocrine interleukin-2 (IL-2)-mediated activation than other subsets. Th2-like Tregs were preferentially found in tissues rather than circulation and exhibited the highest migratory capacity toward chemokines enriched at tumor sites. These cellular responses led us to hypothesize that this subset could play a role in maintaining a tumorigenic environment. Concurrently,Th2-like Tregs were enriched specifically in malignant tissues from patients with melanoma and colorectal cancer compared to healthy tissue. Overall,our results suggest that Th2-like Tregs may contribute to a tumorigenic environment due to their increased cell survival,higher migratory capacity,and selective T-effector suppressive ability. View Publication

Strategies to prevent organ transplant rejection whilst minimizing long-term immunosuppression are currently under intense investigation with regulatory T cells (Tregs) nearing clinical application. The clinical trial,ThRIL,recently commenced at King's College London,proposes to use Treg cell therapy to induce tolerance in liver transplant recipients,the success of which has the potential to revolutionize the management of these patients and enable a future of drug-free transplants. This is the first report of the manufacture of clinical grade Tregs from prospective liver transplant recipients via a CliniMACS-based GMP isolation technique and expanded using anti-CD3/CD28 beads,IL-2 and rapamycin. We report the enrichment of a pure,stable population of Tregs (textgreater95% CD4(+)CD25(+)FOXP3(+)),reaching adequate numbers for their clinical application. Our protocol proved successful in,influencing the expansion of superior functional Tregs,as compared to freshly isolated cells,whilst also preventing their conversion to Th17 cells under pro-inflammatory conditions. We conclude with the manufacture of the final Treg product in the clinical research facility (CRF),a prerequisite for the clinical application of these cells. The data presented in this manuscript together with the much-anticipated clinical results from ThRIL,will undoubtedly inform the improved management of the liver transplant recipient. View Publication

Regulatory T cells (Tregs) contribute significantly to the tolerogenic nature of the liver. The mechanisms,however,underlying liver-associated Treg induction are still elusive. We recently identified the vitamin A metabolite,retinoic acid (RA),as a key controller that promotes TGF-β-dependent Foxp3(+) Treg induction but inhibits TGF-β-driven Th17 differentiation. To investigate whether the RA producing hepatic stellate cells (HSC) are part of the liver tolerance mechanism,we investigated the ability of HSC to function as regulatory APC. Different from previous reports,we found that highly purified HSC did not express costimulatory molecules and only upregulated MHC class II after in vitro culture in the presence of exogenous IFN-γ. Consistent with an insufficient APC function,HSC failed to stimulate naive OT-II TCR transgenic CD4(+) T cells and only moderately stimulated α-galactosylceramide-primed invariant NKT cells. In contrast,HSC functioned as regulatory bystanders and promoted enhanced Foxp3 induction by OT-II TCR transgenic T cells primed by spleen dendritic cells,whereas they greatly inhibited the Th17 differentiation. Furthermore,the regulatory bystander capacity of the HSC was completely dependent on their ability to produce RA. Our data thus suggest that HSC can function as regulatory bystanders,and therefore,by promoting Tregs and suppressing Th17 differentiation,they might represent key players in the mechanism that drives liver-induced tolerance. View Publication

Regulatory T cells (Tregs) are a suppressive subset of CD4(+) T lymphocytes implicated in the prevention of acute GVHD (aGVHD) after allo-SCT (ASCT). To determine whether increased frequency of Tregs with a skin-homing (cutaneous lymphocyte Ag,CLA(+)) or a gut-homing (α(4)β(7)(+)) phenotype is associated with reduced risk of skin or gut aGVHD,respectively,we quantified circulating CLA(+) or α(4)β(7)(+) on Tregs at the time of neutrophil engraftment in 43 patients undergoing ASCT. Increased CLA(+) Tregs at engraftment was associated with the prevention of skin aGVHD (2.6 vs 1.7%; P=0.038 (no skin aGVHD vs skin aGVHD)),and increased frequencies of CLA(+) and α(4)β(7)(+) Tregs were negatively correlated with severity of skin aGVHD (odds ratio (OR),0.67; 95% confidence interval (CI),0.46-0.98; P=0.041) or gut aGVHD (OR,0.93; 95% CI,0.88-0.99; P=0.031),respectively. This initial report suggests that Treg tissue-homing subsets help to regulate organ-specific risk and severity of aGVHD after human ASCT. These results need to be validated in a larger,multicenter cohort. View Publication