Pathogenic Mechanisms in Type 1 Diabetes: The Islet is Both Target and Driver of Disease

Graham, Kerr; Sutherland, Robyn M.; Mannering, Stuart I.; Zhao, Yutong; Chee, Jonathan; Krishnamurthy, Balachander; Thomas, Helen E.; Lew, Andrew M.; Kay, Thomas W. H.

doi:10.1900/rds.2012.9.148

Cited by 60 publications

(57 citation statements)

References 155 publications

(285 reference statements)

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“…This severe depletion of intra-islet beta-cells suggests that beta-cells during early development are more susceptible to autoimmune destruction and that islets are the primary target as well as the driver of the disease (24). Beta-cells during development and growth (i.e.…”

Section: Resultsmentioning

confidence: 99%

Beta-cell destruction and preservation in childhood and adult onset type 1 diabetes

et al. 2015

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Previous studies describing the symptomatic onset of type 1 diabetes (T1D) and rate of beta-cell loss (C-peptide) support the notion that childhood onset T1D exhibits more severe beta-cell depletion compared to adult onset T1D. To test this notion, we performed whole pancreas analyses in two T1D cases; one of childhood onset (7-yr old, onset at 1.5-yr) along with an adult onset case (43-yr old with onset at 27-yr). Both cases were matched for age and gender with control subjects. Striking regional differences in beta-cell loss were observed in both T1D cases, with severity of loss in the order of tail>body>head regions. In contrast, pancreatic alpha- and delta-cell mass was similar in controls and T1D patients. In the childhood onset T1D case, no intra-islet beta-cells were detected while in the adult onset case, beta-cell containing islets were found, exclusively in the head region. In the latter case, considerable numbers of small cellular clusters negative for three major endocrine hormones were observed, in islets with or without beta-cells. Ultrastructural analysis suggests these cells correspond to degenerating beta-cells, with empty granular membranes and abnormal morphology of nuclei with intranuclear pseudoinclusions, adjacent to healthy alpha- and delta-cells. These results support a hypothesis that during T1D development in childhood, beta-cells are more susceptible to autoimmune destruction or immune attack is more severe, while beta-cell death in the adult onset T1D may be more protracted and incomplete. In addition, T1D may be associated with the formation of “empty” beta-cells; an interesting population of cells that may represent a key facet to the disorder's pathogenesis.

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Section: Resultsmentioning

confidence: 99%

Beta-cell destruction and preservation in childhood and adult onset type 1 diabetes

et al. 2015

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“…This analysis revealed that HLA-A2-restricted CD8 + T cells specific for islet-specific glucose-6-phosphatase catalytic subunit-related protein (IGRP), GAD-65, preproislet amyloid polypeptide, and preproinsulin were present in this donor's islets. It is believed that HLA class I-restricted CD8 + T cells that recognize b-cell autoantigens are responsible for b-cell destruction (34). In the NOD mouse model, spreading of the CD8 + immune response from proinsulin to IGRP only requires CD4 + T cells specific for proinsulin (11), which could also be the case in humans.…”

Section: Discussionmentioning

confidence: 99%

Proinsulin-Specific, HLA-DQ8, and HLA-DQ8-Transdimer–Restricted CD4+ T Cells Infiltrate Islets in Type 1 Diabetes

et al. 2014

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Type 1 diabetes (T1D) develops when insulin-secreting b-cells, found in the pancreatic islets of Langerhans, are destroyed by infiltrating T cells. How human T cells recognize b-cell-derived antigens remains unclear. Genetic studies have shown that HLA and insulin alleles are the most strongly associated with risk of T1D. These longstanding observations implicate CD4 + T-cell responses against (pro)insulin in the pathogenesis of T1D. To dissect the autoimmune T-cell response against human b-cells, we isolated and characterized 53 CD4 + T-cell clones from within the residual pancreatic islets of a deceased organ donor who had T1D. These 53 clones expressed 47 unique clonotypes, 8 of which encoded proinsulin-specific T-cell receptors. On an individual clone basis, 14 of 53 CD4 + T-cell clones (26%) recognized 6 distinct but overlapping epitopes in the C-peptide of proinsulin. These clones recognized C-peptide epitopes presented by HLA-DQ8 and, notably, HLA-DQ8 transdimers that form in HLA-DQ2/-DQ8 heterozygous individuals. Responses to these epitopes were detected in the peripheral blood mononuclear cells of some people with recent-onset T1D but not in HLAmatched control subjects. Hence, proinsulin-specific, HLA-DQ8, and HLA-DQ8-transdimer-restricted CD4 + T cells are strongly implicated in the autoimmune pathogenesis of human T1D.Type 1 diabetes (T1D) is an autoimmune disease caused by the CD4 + and CD8 + T-cell-mediated destruction of pancreatic insulin-producing b-cells (1). b-Cell destruction leads to primary insulin deficiency, which is treated by exogenous insulin therapy, and currently there is no cure. The pathogenesis of T1D has been well characterized using the NOD mouse model, but the immune basis of T1D in humans is less clear.Genetic association studies have provided powerful insights into the etiology of human T1D (2,3). The HLA class II region has the strongest impact on risk of T1D. Some HLA alleles-DQB1*06:02 for example-dominantly protect against T1D (4). In contrast, of all alleles, HLA-DQ2

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“…This decrease in cytotoxic effector cells can be interpreted concerning Graham et al. 's and Faustman's findings [15,16].…”

Section: Discussionmentioning

confidence: 99%

Alteration in CD8⁺ T cell subsets in enterovirus‐infected patients: An alarming factor for type 1 diabetes mellitus

Samani

Mahmoodnia

Izad

et al. 2018

The Kaohsiung J of Med Scie

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Type 1 diabetes is a multi-factorial disease that can develop due to the combination of genetic and environmental factors. Viruses, particularly enteroviruses, are major environmental candidates in the pathogenesis of type 1 diabetes, even though the mechanisms of pathogenicity of these viruses and their effects on the immune system have not been understood very well yet. Previous studies show that any imbalance in the population of different lymphocyte subsets could develop autoimmune diseases. Our theory is that enteroviral infection causes an impairment in the distribution of lymphocyte subtypes and consequently results in the diabetes onset in some individuals. Therefore, in this project, we evaluated the distribution of T CD8+ lymphocytes and their subsets in type 1 diabetes patients. This study was conducted to investigate the relationship between enteroviral infection and type 1 diabetes mellitus in an Iranian population, and suggestion a predicting approach for susceptible subjects.

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Pathogenic Mechanisms in Type 1 Diabetes: The Islet is Both Target and Driver of Disease

Cited by 60 publications

References 155 publications

Beta-cell destruction and preservation in childhood and adult onset type 1 diabetes

Beta-cell destruction and preservation in childhood and adult onset type 1 diabetes

Proinsulin-Specific, HLA-DQ8, and HLA-DQ8-Transdimer–Restricted CD4+ T Cells Infiltrate Islets in Type 1 Diabetes

Alteration in CD8⁺ T cell subsets in enterovirus‐infected patients: An alarming factor for type 1 diabetes mellitus

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Pathogenic Mechanisms in Type 1 Diabetes: The Islet is Both Target and Driver of Disease

Cited by 60 publications

References 155 publications

Beta-cell destruction and preservation in childhood and adult onset type 1 diabetes

Beta-cell destruction and preservation in childhood and adult onset type 1 diabetes

Proinsulin-Specific, HLA-DQ8, and HLA-DQ8-Transdimer–Restricted CD4+ T Cells Infiltrate Islets in Type 1 Diabetes

Alteration in CD8+ T cell subsets in enterovirus‐infected patients: An alarming factor for type 1 diabetes mellitus

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Alteration in CD8⁺ T cell subsets in enterovirus‐infected patients: An alarming factor for type 1 diabetes mellitus