Prevention of type 1 diabetes through infection with an intestinal nematode parasite requires IL-10 in the absence of a Th2-type response

Mishra, Pankaj Kumar; Patel, Nirav; Wu, Wan-Jung; Bleich, David; Gause, William C.

doi:10.1038/mi.2012.71

Cited by 68 publications

(58 citation statements)

References 53 publications

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“…It was shown that infection with Schistosoma mansoni could prevent diabetes onset in NOD mice [19]. Other studies confirmed the potent effect of other helminth infections on T1D in NOD mice including Trichinella spiralis, Heligmosomoides polygyrus [20,21]. Protection was associated with an augmented Th2 response, increased generation of regulatory T (Treg) cells, production of IL-10 by T and B cells and reduction in infiltrating CD8 + T cells in the pancreas; all of which would have the potential to inhibit diabetes onset.…”

Section: Introductionsupporting

confidence: 52%

Helminth-Derived Product(s): Source for Potential Therapeutic

Haque¹,

Akcesme

Mujić

et al. 2013

PEN

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Section: Introductionsupporting

confidence: 52%

Helminth-Derived Product(s): Source for Potential Therapeutic

Haque¹,

Akcesme

Mujić

et al. 2013

PEN

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“…At odds with data from short-term Th2 clones [5], long-term cultured Th2 clones derived from the same TCR transgenic animals have the capacity to induce diabetes, and could even enhance the ability of Th1 cells to cause disease [25]. The effect of helminth products on the immune response was also shown to be more complex than anticipated originally, with effects on regulatory T cells and innate lymphoid cells [11], and it is now clear that helminth infection can protect from diabetes without necessarily invoking Th2 differentiation [26,27].…”

Section: Evidence Against the Th1 Paradigmmentioning

confidence: 99%

CD4 T cell differentiation in type 1 diabetes

Walker

Herrath

2015

Clinical and Experimental Immunology

147

113

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SummarySusceptibility to type 1 diabetes is associated strongly with human leucocyte antigen (HLA) genes, implicating T cells in disease pathogenesis. In humans, CD8 T cells predominantly infiltrate the islets, yet their activation and propagation probably requires CD4 T cell help. CD4 T cells can select from several differentiation fates following activation, and this choice has profound consequences for their subsequent cytokine production and migratory potential. In turn, these features dictate which other immune cell types T cells interact with and influence, thereby determining downstream effector functions. Obtaining an accurate picture of the type of CD4 T cell differentiation associated with a particular immune-mediated disease therefore constitutes an important clue when planning intervention strategies. Early models of T cell differentiation focused on the dichotomy between T helper type 1 (Th1) and Th2 responses, with type 1 diabetes (T1D) being viewed mainly as a Th1-mediated pathology. However, several additional fate choices have emerged in recent years, including Th17 cells and follicular helper T cells. Here we revisit the issue of T cell differentiation in autoimmune diabetes, highlighting new evidence from both mouse models and patient samples. We assess the strengths and the weaknesses of the Th1 paradigm, review the data on interleukin (IL)-17 production in type 1 diabetes and discuss emerging evidence for the roles of IL-21 and follicular helper T cells in this disease setting. A better understanding of the phenotype of CD4 T cells in T1D will undoubtedly inform biomarker development, improve patient stratification and potentially reveal new targets for therapeutic intervention.

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“…They require multiple interactions between innate and adaptive immune cells. This complexity was demonstrated in studies using IL-4-deficient NOD mice that failed to develop a Th2 shift in response to H. polygyrus or L. sigmodontis, but still were protected from diabetes by the infection [67,68]. On the other hand, the expansion of regulatory cell populations (Foxp3 + -expressing and/or IL-10-secreting T cells) induced by helminth infections was shown to be dispensable for diabetes prevention in IL-4-competent NOD mice infected with H. polygyrus [45].…”

Section: Mechanisms Of Helminth-mediated Diabetes Protectionmentioning

confidence: 99%

Helminth Infection and Type 1 Diabetes

Zaccone¹,

Hall²

2012

Rev Diabet Stud

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■ AbstractThe increasing incidence of type 1 diabetes (T1D) and autoimmune diseases in industrialized countries cannot be exclusively explained by genetic factors. Human epidemiological studies and animal experimental data provide accumulating evidence for the role of environmental factors, such as infections, in the regulation of allergy and autoimmune diseases. The hygiene hypothesis has formally provided a rationale for these observations, suggesting that our coevolution with pathogens has contributed to the shaping of the present-day human immune system. Therefore, improved sanitation, together with infection control, has removed immunoregulatory mechanisms on which our immune system may depend. Helminths are multicellular organisms that have developed a wide range of strategies to manipulate the host immune system to survive and complete their reproductive cycles successfully. Immunity to helminths involves profound changes in both the innate and adaptive immune compartments, which can have a protective effect in inflammation and autoimmunity. Recently, helminth-derived antigens and molecules have been tested in vitro and in vivo to explore possible applications in the treatment of inflammatory and autoimmune diseases, including T1D. This exciting approach presents numerous challenges that will need to be addressed before it can reach safe clinical application. This review outlines basic insight into the ability of helminths to modulate the onset and progression of T1D, and frames some of the challenges that helminth-derived therapies may face in the context of clinical translation.

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Prevention of type 1 diabetes through infection with an intestinal nematode parasite requires IL-10 in the absence of a Th2-type response

Cited by 68 publications

References 53 publications

Helminth-Derived Product(s): Source for Potential Therapeutic

Helminth-Derived Product(s): Source for Potential Therapeutic

CD4 T cell differentiation in type 1 diabetes

Helminth Infection and Type 1 Diabetes

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