Immunologically based clinical trials performed thus far have failed to cure type 1 diabetes (T1D), in part because these approaches were nonspecific. Because the disease is driven by autoreactive CD4 T cells, which destroy β cells, transplantation of hematopoietic stem and progenitor cells (HSPCs) has been recently offered as a therapy for T1D. Our transcriptomic profiling of HSPCs revealed that these cells are deficient in programmed death ligand 1 (PD-L1), an important immune checkpoint, in the T1D nonobese diabetic (NOD) mouse model. Notably, the immunoregulatory molecule PD-L1 plays a determinant role in controlling/inhibiting activated T cells and thus maintains immune tolerance. Furthermore, our genome-wide and bioinformatic analysis revealed the existence of a network of microRNAs (miRNAs) controlling PD-L1 expression, and silencing one of key altered miRNAs restored PD-L1 expression in HSPCs. We therefore sought to determine whether restoration of this defect would cure T1D as an alternative to immunosuppression. Genetically engineered or pharmacologically modulated HSPCs overexpressing PD-L1 inhibited the autoimmune response in vitro, reverted diabetes in newly hyperglycemic NOD mice in vivo, and homed to the pancreas of hyperglycemic NOD mice. The PD-L1 expression defect was confirmed in human HSPCs in T1D patients as well, and pharmacologically modulated human HSPCs also inhibited the autoimmune response in vitro. Targeting a specific immune checkpoint defect in HSPCs thus may contribute to establishing a cure for T1D.
Key Points
SRL and PDN often induce disease stabilization or objective responses in patients with ECD. The phosphorylated forms of mTOR and of its downstream kinase p70S6K are strongly expressed in infiltrating histiocytes.
Objective. Chronic periaortitis (CP) usually responds to glucocorticoids, but some patients have glucocorticoid-refractory disease or contraindications to glucocorticoid therapy. This study was undertaken to evaluate treatment with the anti-interleukin-6 receptor (anti-IL-6R) antibody tocilizumab in 2 patients with CP, one with refractory disease and the other with contraindications to glucocorticoids, and to assess IL-6 levels in an additional cohort of patients with CP.Methods. Both patients were given intravenous tocilizumab (8 mg/kg) once every 4 weeks for 6 months. Serum IL-6 was measured in 22 patients with active CP and 16 healthy controls. Tissue IL-6 expression was assessed by confocal microscopy in biopsy specimens obtained from 6 patients with CP.Results. In the first patient, whose disease was refractory to various immunosuppressive treatments, tocilizumab added to ongoing therapy with prednisone and methotrexate allowed prednisone withdrawal and induced resolution of symptoms, acute-phase reactant normalization, and reduction in 18 F-fluorodeoxyglucose ( 18 F-FDG) uptake on positron emission tomography. The patient experienced a relapse 7 months later and was successfully retreated with tocilizumab. In the second patient, who was unable to tolerate glucocorticoids because of psychiatric side effects, tocilizumab monotherapy induced sustained clinical and laboratory remission, 18 F-FDG uptake disappearance, and CP shrinkage. Serum IL-6 levels were significantly higher in patients with active CP than in controls (P < 0.0001), and IL-6 was abundantly expressed in biopsy specimens from CP patients, particularly by T cells, B cells, histiocytes, fibroblasts, and vascular smooth muscle cells.Conclusion. Tocilizumab may be a therapeutic option for CP. The systemic and tissue up-regulation of IL-6 in CP, together with the clinical benefit of IL-6R blockade observed in our 2 patients, suggest that IL-6 may contribute to CP pathogenesis.
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