Screening for Insulitis in Adult Autoantibody-Positive Organ Donors

Veld, Peter In’t; Lievens, Dirk; Grijse, Joeri De; Ling, Zhidong; Auwera, Bart Van Der; Pipeleers-Marichal, M.; Gorus, Frans; Pipeleers, Daniël

doi:10.2337/db07-0416

Cited by 174 publications

(111 citation statements)

References 29 publications

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“…To date, insulitis has been demonstrated in two of three non-diabetic donors with multiple autoantibodies but not in any of the 18 donors with a single autoantibody. Although such donors likely did not have a relative with T1D and rarely were found to carry high-risk HLA types for T1D, these findings are in agreement with the analysis of tissue blocks from pancreata that were processed for islet isolation in Europe [49] and with the well-established low risk of T1D demonstrated by prospective follow-up of patients’ relatives with a single autoantibody [50]. However, a number of studies are discovering evidence for abnormalities affecting the pancreas of donors with autoantibodies, perhaps pointing at some initial stages in the disease pathogenesis that may or may not necessarily progress to overt disease but could be important co-factors in their own right or if more sustained autoimmunity was triggered.…”

Section: Introductionsupporting

confidence: 79%

“…Major findings emerging from these studies are summarized below:A key question posed when nPOD was established was whether individuals with autoantibody (single or multiple) would have insulitis in the pancreas [26, 48, 49]. To date, insulitis has been demonstrated in two of three non-diabetic donors with multiple autoantibodies but not in any of the 18 donors with a single autoantibody.…”

Section: Introductionmentioning

confidence: 99%

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New Insight on Human Type 1 Diabetes Biology: nPOD and nPOD-Transplantation

et al. 2014

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The Juvenile Diabetes Research Foundation (JDRF) Network for Pancreatic Organ Donors with Diabetes (JDRF nPOD) was established to obtain human pancreata and other tissues from organ donors with type 1 diabetes (T1D) in support of research focused on disease pathogenesis. Since 2007, nPOD has recovered tissues from over 100 T1D donors and distributed specimens to approximately 130 projects led by investigators worldwide. More recently, nPOD established a programmatic expansion that further links the transplantation world to nPOD, nPOD-Transplantation; this effort is pioneering novel approaches to extend the study of islet autoimmunity to the transplanted pancreas and to consent patients for postmortem organ donation directed towards diabetes research. Finally, nPOD actively fosters and coordinates collaborative research among nPOD investigators, with the formation of working groups and the application of team science approaches. Exciting findings are emerging from the collective work of nPOD investigators, which covers multiple aspects of islet autoimmunity and beta cell biology.

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Section: Introductionsupporting

confidence: 79%

Section: Introductionmentioning

confidence: 99%

New Insight on Human Type 1 Diabetes Biology: nPOD and nPOD-Transplantation

et al. 2014

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“…Amongst the earliest signs of T1DM in non-diabetic high-risk patients is the loss of first phase insulin release (FPIR), an early indicator of β-cell impairment (Chase et al, 2001; Defronzo, 2009), with only rare instances of insulitis (In't Veld et al, 2007), suggesting that β-cell dysfunction predates insulitis. Similarly, animal models of T1DM display loss of FPIR and β-cell ER stress prior to immune infiltration (Ize-Ludlow et al, 2011; Marhfour et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

The Diabetes Susceptibility Gene Clec16a Regulates Mitophagy

Soleimanpour

Gupta

Bakay

et al. 2014

Cell

186

232

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SUMMARY Clec16a has been identified as a disease susceptibility gene for type 1 diabetes, multiple sclerosis and adrenal dysfunction, but its function is unknown. Here we report that Clec16a is a membrane-associated endosomal protein that interacts with E3 ubiquitin ligase Nrdp1. Loss of Clec16a leads to an increase in the Nrdp1 target Parkin, a master regulator of mitophagy. Islets from mice with pancreas-specific deletion of Clec16a have abnormal mitochondria with reduced oxygen consumption and ATP concentration, both of which are required for normal β-cell function. Indeed, pancreatic Clec16a is required for normal glucose-stimulated insulin release. Moreover, patients harboring a diabetogenic SNP in the Clec16a gene have reduced islet Clec16a expression and reduced insulin secretion. Thus, Clec16a controls β-cell function and prevents diabetes by controlling mitophagy. This novel pathway could be targeted for prevention and control of diabetes and may extend to the pathogenesis of other Clec16a and Parkin associated diseases.

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“…In donors >15 years of age, insulitis was only found in 29% of those with acute-onset diabetes [21, 22]. In autoantibody-positive donors, the numbers were far lower: only two out of 62 autoantibody-positive, non-diabetic organ donors showed insulitis [23]. Furthermore, insulitis seems to follow a lobular pattern rather than affecting all islets in a given pancreas [14, 24].…”

Section: Hallmarks Of Type 1 Diabetes Pathogenesismentioning

confidence: 99%

Potential viral pathogenic mechanism in human type 1 diabetes

Schneider

Herrath

2014

Diabetologia

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In type 1 diabetes, as a result of as yet unknown triggering events, auto-aggressive CD8+ T cells, together with a significant number of other inflammatory cells, including CD8+ T lymphocytes with unknown specificity, infiltrate the pancreas, leading to insulitis and destruction of the insulin-producing beta cells. Type 1 diabetes is a multifactorial disease caused by an interactive combination of genetic and environmental factors. Viruses are major environmental candidates with known potential effects on specific key points in the pathogenesis of type 1 diabetes and recent findings seem to confirm this presumption. However, we still lack well-grounded mechanistic explanations for how exactly viruses may influence type 1 diabetes aetiology. In this review we provide a summary of experimentally defined viral mechanisms potentially involved in the ontology of type 1 diabetes and discuss some novel hypotheses of how viruses may affect the initiation and natural history of the disease.

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Screening for Insulitis in Adult Autoantibody-Positive Organ Donors

Cited by 174 publications

References 29 publications

New Insight on Human Type 1 Diabetes Biology: nPOD and nPOD-Transplantation

New Insight on Human Type 1 Diabetes Biology: nPOD and nPOD-Transplantation

The Diabetes Susceptibility Gene Clec16a Regulates Mitophagy

Potential viral pathogenic mechanism in human type 1 diabetes

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