Screening and Treatment Outcomes in Adults and Children With Type 1 Diabetes and Asymptomatic Celiac Disease: The CD-DIET Study.

OBJECTIVE: To describe celiac disease (CD) screening rates and glycemic outcomes of a gluten-free diet (GFD) in patients with type 1 diabetes who are asymptomatic for CD. RESEARCH DESIGN AND METHODS: Asymptomatic patients (8-45 years) were screened for CD. Biopsy-confirmed CD participants were randomized to GFD or gluten-containing diet (GCD) to assess changes in HbA1c and continuous glucose monitoring over 12 months. RESULTS: Adults had higher CD-seropositivity rates than children (6.8% [95% CI 4.9-8.2%, N = 1,298] vs. 4.7% [95% CI 3.4-5.9%, N = 1,089], P = 0.035) with lower rates of prior CD screening (6.9% vs. 44.2%, P < 0.0001). Fifty-one participants were randomized to a GFD (N = 27) or GCD (N = 24). No HbA1c differences were seen between the groups (+0.14%, 1.5 mmol/mol; 95% CI -0.79 to 1.08; P = 0.76), although greater postprandial glucose increases (4-h +1.5 mmol/L; 95% CI 0.4-2.7; P = 0.014) emerged with a GFD. CONCLUSIONS: CD is frequently observed in asymptomatic patients with type 1 diabetes, and clinical vigilance is warranted with initiation of a GFD.

The Celiac Disease and Diabetes-Dietary Intervention and Evaluation Trial (CD-DIET) protocol: a randomised controlled study to evaluate treatment of asymptomatic coeliac disease in type 1 diabetes.

INTRODUCTION: Coeliac disease (CD) is an autoimmune condition characterised by gluten-induced intestinal inflammation, and observed at a 5-10 fold greater prevalence in type 1 diabetes. While universal screening for CD in patients with diabetes is frequently advocated, objective data is limited as to benefits on diabetes control, bone health or quality of life related to the adoption of a gluten-free diet (GFD) in the large proportion of patients with diabetes with asymptomatic CD. The Celiac Disease and Diabetes-Dietary Intervention and Evaluation Trial (CD-DIET) study is a multicenter, randomised controlled trial to evaluate the efficacy and safety of a GFD in patients with type 1 diabetes with asymptomatic CD. METHODS AND ANALYSIS: Children and adults (8-45 years) with type 1 diabetes will be screened for asymptomatic CD. Eligible patients with biopsy-proven CD will be randomly assigned in a 1:1 ratio to treatment with a GFD for 1 year, or continue with a gluten-containing diet. The primary outcome will evaluate the impact of the GFD on change in glycated haemoglobin. Secondary outcomes will evaluate changes in bone mineral density, blood glucose variability and health-related quality of life between GFD-treated and the regular diet group over a 1-year period. The study was initiated in 2012 and has subsequently expanded to multiple paediatric and adult centres in Ontario, Canada. ETHICS AND DISSEMINATION: The findings from this study will provide high-quality evidence as to the impact of GFD treatment on glycaemic control and complications in asymptomatic children and adults with CD and type 1 diabetes. TRIAL REGISTRATION NUMBER: NCT01566110.

Autoimmunity and tumor immunity induced by immune responses to mutations in self.

Little is known about the consequences of immune recognition of mutated gene products, despite their potential relevance to autoimmunity and tumor immunity. To identify mutations that induce immunity, here we have developed a systematic approach in which combinatorial DNA libraries encoding large numbers of random mutations in two syngeneic tyrosinase-related proteins are used to immunize black mice. We show that the libraries of mutated DNA induce autoimmune hypopigmentation and tumor immunity through cross-recognition of nonmutated gene products. Truncations are present in all immunogenic clones and are sufficient to elicit immunity to self, triggering recognition of normally silent epitopes. Immunity is further enhanced by specific amino acid substitutions that promote T helper cell responses. Thus, presentation of a vast repertoire of antigen variants to the immune system can enhance the generation of adaptive immune responses to self.

Chemical inhibitors of TNF signal transduction in human neutrophils point to distinct steps in cell activation.

Chemical screening identified three small compounds that selectively inhibited activation of the respiratory burst (RB) of human neutrophils in response to tumor necrosis factor (TNF) and formylated peptide but not phorbol ester and spared the ability of neutrophils to kill bacteria. These compounds partially inhibited TNF-triggered cytoskeletal rearrangements without blocking adhesion or transmigation of polymorphonuclear neutrophils through TNF-activated monolayers of endothelial cells. The compounds were nontoxic to neutrophils and endothelial cells. They had no direct inhibitory effect on the tyrosine kinases Src, Syk, or Pyk2. However, their differential effects on cell spreading, bacteria-induced RB, TNF-induced degranulation, TNF-induced protein tyrosine phosphorylation, and TNF-induced Syk activation suggested that each may act on different elements of neutrophil signaling pathways.

Calcium-sensing soluble adenylyl cyclase mediates TNF signal transduction in human neutrophils.

Through chemical screening, we identified a pyrazolone that reversibly blocked the activation of phagocyte oxidase (phox) in human neutrophils in response to tumor necrosis factor (TNF) or formylated peptide. The pyrazolone spared activation of phox by phorbol ester or bacteria, bacterial killing, TNF-induced granule exocytosis and phox assembly, and endothelial transmigration. We traced the pyrazolone's mechanism of action to inhibition of TNF-induced intracellular Ca2+ elevations, and identified a nontransmembrane ("soluble") adenylyl cyclase (sAC) in neutrophils as a Ca2+-sensing source of cAMP. A sAC inhibitor mimicked the pyrazolone's effect on phox. Both compounds blocked TNF-induced activation of Rap1A, a phox-associated guanosine triphosphatase that is regulated by cAMP. Thus, TNF turns on phox through a Ca2+-triggered, sAC-dependent process that may involve activation of Rap1A. This pathway may offer opportunities to suppress oxidative damage during inflammation without blocking antimicrobial function.

Homeostatic role of interferons conferred by inhibition of IL-1-mediated inflammation and tissue destruction.

In addition to their well known immune and proinflammatory activities, IFNs possess homeostatic functions that limit inflammation and tissue destruction in a variety of conditions such as arthritis, osteolysis, and multiple sclerosis. The mechanisms underlying the homeostatic actions of IFNs are not well understood. We report here that both type I and type II IFNs (IFN-alpha, IFN-beta, and IFN-gamma, respectively) suppressed a broad range of proinflammatory and tissue-destructive activities of IL-1, including induction of inflammatory mediators, production of matrix metalloproteinases, macrophage tissue invasion, and cartilage degradation. IFN-alpha attenuated IL-1-mediated cell recruitment in vivo. IFNs completely suppressed the activation of IL-1 signal transduction pathways in macrophages. The mechanism of IFN-mediated inhibition of IL-1 action and signaling was modulation of IL-1R expression, which was also observed in vivo. IFN-gamma-mediated down-regulation of IL-1R type I expression was dependent on Stat1, a transcription factor typically considered to be a key mediator of macrophage activation by IFNs. These results identify cellular and molecular mechanisms that contribute to the homeostatic role of IFNs in limiting inflammation and associated tissue destruction.