Type 1 diabetes vaccine candidates promote human Foxp3+Treg induction in humanized mice

Serr, Isabelle; Fürst, Rainer W.; Achenbach, Peter; Scherm, Martin G.; Gökmen, Füsun; Haupt, Florian; Sedlmeier, Eva Maria; Knopff, Annette; Shultz, Leonard D.; Willis, Richard A.; Ziegler, Anette G.; Daniel, Carolin

doi:10.1038/ncomms10991

Cited by 107 publications

(129 citation statements)

References 72 publications

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“…S10 A-C). Next, to assess a potential human in vivo relevance of miRNA92a antagomir application, we investigated human HLA-DQ8-restricted insulin-specific TFH cells in humanized NOD Scid IL2 receptor gamma chain knockout (NSG) human leucocyte antigen (HLA)-DQ8 Tg mice in accordance with previously established procedures (31). Specifically, we focused on human pancreas-infiltrating CD4 + T cells upon treatment with a miRNA92a antagomir (1 wk of treatment, with injections three times per week at 10 mg/kg) or a control antagomir.…”

Section: Cxcr5mentioning

confidence: 99%

“…We used CD4 + T cells from nondiabetic children without autoimmunity (islet autoantibody-negative children), with recent onset of autoimmunity (recent activation, multiple autoantibodies for <5 y), persistent autoimmunity (multiple autoantibodies for >5 to <10 y), and long-term autoimmunity (multiple autoantibodies for >10 y without overt T1D). We applied recently developed fluorescent insulin-specific HLA-DQ8 tetramers (14E-22E and 14E-21G 22E tetramers) based on a set of two insulin B-chain 10-23 mimetopes to identify human HLA-DQ8-restricted insulinspecific CD4 + T cells ex vivo directly (31). We detected no tet + CD4 + T cells using the control tetramers, whereas a population of insulin-specific CD4 + T cells was readily identified ex vivo with the insulin-specific tetramers ( Fig.…”

Section: Enhancement Of Insulin-specific Cxcr5mentioning

confidence: 99%

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miRNA92a targets KLF2 and the phosphatase PTEN signaling to promote human T follicular helper precursors in T1D islet autoimmunity

Serr

Fürst

Ott

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Aberrant immune activation mediated by T effector cell populations is pivotal in the onset of autoimmunity in type 1 diabetes (T1D). T follicular helper (TFH) cells are essential in the induction of high-affinity antibodies, and their precursor memory compartment circulates in the blood. The role of TFH precursors in the onset of islet autoimmunity and signaling pathways regulating their differentiation is incompletely understood. Here, we provide direct evidence that during onset of islet autoimmunity, the insulin-specific target T-cell population is enriched with a C-X-C chemokine receptor type 5 (CXCR5)+CD4+ TFH precursor phenotype. During onset of islet autoimmunity, the frequency of TFH precursors was controlled by high expression of microRNA92a (miRNA92a). miRNA92a-mediated TFH precursor induction was regulated by phosphatase and tension homolog (PTEN) - phosphoinositol-3-kinase (PI3K) signaling involving PTEN and forkhead box protein O1 (Foxo1), supporting autoantibody generation and triggering the onset of islet autoimmunity. Moreover, we identify Krueppel-like factor 2 (KLF2) as a target of miRNA92a in regulating human TFH precursor induction. Importantly, a miRNA92a antagomir completely blocked induction of human TFH precursors in vitro. More importantly, in vivo application of a miRNA92a antagomir to nonobese diabetic (NOD) mice with ongoing islet autoimmunity resulted in a significant reduction of TFH precursors in peripheral blood and pancreatic lymph nodes. Moreover, miRNA92a antagomir application reduced immune infiltration and activation in pancreata of NOD mice as well as humanized NOD Scid IL2 receptor gamma chain knockout (NSG) human leucocyte antigen (HLA)-DQ8 transgenic animals. We therefore propose that miRNA92a and the PTEN-PI3K-KLF2 signaling network could function as targets for innovative precision medicines to reduce T1D islet autoimmunity.

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Section: Cxcr5mentioning

confidence: 99%

Section: Enhancement Of Insulin-specific Cxcr5mentioning

confidence: 99%

miRNA92a targets KLF2 and the phosphatase PTEN signaling to promote human T follicular helper precursors in T1D islet autoimmunity

Serr

Fürst

Ott

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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“…S1). Given the critical role of insulin epitopes as target autoantigens, we focused on insulin-specific T reg induction using highly pure naïve CD4 + T cells and premature withdrawal of TCR stimulation after 18 hours without transforming growth factor–β (11, 12). We therefore used previously established protocols using HLA-DQ8 insulin-specific monomers coated onto streptavidin-precoated plates (12).…”

Section: Resultsmentioning

confidence: 99%

“…In contrast, high frequencies of insulin-specific T regs were associated with profound delays in progressing to symptomatic T1D (12). However, a mechanistic understanding of relevant promoters of T cell activation involved in triggering islet auto-immunity is still lacking.…”

Section: Introductionmentioning

confidence: 99%

A miRNA181a/NFAT5 axis links impaired T cell tolerance induction with autoimmune type 1 diabetes

et al. 2018

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Molecular checkpoints that trigger the onset of islet autoimmunity or progression to human type 1 diabetes (T1D) are incompletely understood. Using T cells from children at an early stage of islet autoimmunity without clinical T1D, we find that a microRNA181a (miRNA181a)–mediated increase in signal strength of stimulation and costimulation links nuclear factor of activated T cells 5 (NFAT5) with impaired tolerance induction and autoimmune activation. We show that enhancing miRNA181a activity increases NFAT5 expression while inhibiting FOXP3+ regulatory T cell (Treg) induction in vitro. Accordingly, Treg induction is improved using T cells from NFAT5 knockout (NFAT5ko) animals, whereas altering miRNA181a activity does not affect Treg induction in NFAT5ko T cells. Moreover, high costimulatory signals result in phosphoinositide 3-kinase (PI3K)–mediated NFAT5, which interferes with FoxP3+ Treg induction. Blocking miRNA181a or NFAT5 increases Treg induction in murine and humanized models and reduces murine islet autoimmunity in vivo. These findings suggest targeting miRNA181a and/or NFAT5 signaling for the development of innovative personalized medicines to limit islet autoimmunity.

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“…Alternatively, the loss of IAA may simply be a matter of increasing age and therefore seen in children with slow progression. Nevertheless, we have recently shown that high frequencies of insulin-specific regulatory T cells are found in multiple-autoantibody-positive children who do not progress to clinical type 1 diabetes and therefore could indicate at least periods of successful ongoing immune regulation in such children [50].…”

Section: Discussionmentioning

confidence: 99%

A novel approach for the analysis of longitudinal profiles reveals delayed progression to type 1 diabetes in a subgroup of multiple-islet-autoantibody-positive children

et al. 2016

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Aims/hypothesis Progression to type 1 diabetes in children and adolescents is not uniform. Based on individual genetic background and environment, islet autoimmunity may develop at variable age, exhibit different autoantibody profiles and progress to clinical diabetes at variable rates. Here, we aimed to quantify the qualitative dynamics of sequential islet autoantibody profiles in order to identify longitudinal patterns that stratify progression rates to type 1 diabetes in multiple-autoantibody-positive children. Methods Qualitative changes in antibody status on follow-up and progression rate to diabetes were analysed in 88 children followed from birth in the prospective BABYDIAB study who developed multiple autoantibodies against insulin (IAA), GAD (GADA), insulinoma-associated antigen-2 (IA-2A) and/or zinc transporter 8 (ZnT8A). An algorithm was developed to define similarities in sequential autoantibody profiles and hierarchical clustering was performed to group children with similar profiles. Results We defined nine clusters that distinguished children with respect to their sequential profiles of IAA, GADA, IA-2A and ZnT8A. Progression from first autoantibody appearance to clinical diabetes between clusters ranged from 6% (95% CI [0, 16.4]) to 73% (28.4, 89.6) within 5 years. Delayed progression was observed in children who were positive for only two autoantibodies, and for a cluster of 12 children who developed three or four autoantibodies but were IAA-negative in their last samples, nine of whom lost IAA positivity during follow-up. Among all children who first seroconverted to IAA positivity and developed at least two other autoantibodies (n = 57), the 10 year risk of diabetes was 23% (0, 42.9) in those who became IAA-negative during follow-up compared with 76% (58.7, 85.6) in those who remained IAA-positive (p = 0.004). Conclusions/interpretation The novel clustering approach provides a tool for stratification of islet autoantibodypositive individuals that has prognostic relevance, and new opportunities in elucidating disease mechanisms. Our data suggest that losing IAA reactivity is associated with delayed progression to type 1 diabetes in multiple-islet-autoantibodypositive children.Wolfgang zu Castell and Peter Achenbach contributed equally to this study. Electronic supplementary materialThe online version of this article

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Type 1 diabetes vaccine candidates promote human Foxp3+Treg induction in humanized mice

Cited by 107 publications

References 72 publications

miRNA92a targets KLF2 and the phosphatase PTEN signaling to promote human T follicular helper precursors in T1D islet autoimmunity

miRNA92a targets KLF2 and the phosphatase PTEN signaling to promote human T follicular helper precursors in T1D islet autoimmunity

A miRNA181a/NFAT5 axis links impaired T cell tolerance induction with autoimmune type 1 diabetes

A novel approach for the analysis of longitudinal profiles reveals delayed progression to type 1 diabetes in a subgroup of multiple-islet-autoantibody-positive children

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