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Literature DB >> 24043895

Cutting edge: CD4 T cells reactive to an islet amyloid polypeptide peptide accumulate in the pancreas and contribute to disease pathogenesis in nonobese diabetic mice.

Rocky L Baker¹, Thomas Delong, Gene Barbour, Brenda Bradley, Maki Nakayama, Kathryn Haskins.

Abstract

We previously reported a peptide KS20 from islet amyloid polypeptide (IAPP) to be the target Ag for a highly diabetogenic CD4 T cell clone BDC-5.2.9. To track IAPP-reactive T cells in NOD mice and determine how they contribute to the pathogenesis of type 1 diabetes, we designed a new I-Ag7 tetramer with high affinity for BDC-5.2.9 that contains the peptide KS20. We found that significant numbers of KS20 tetramer(+) CD4 T cells can be detected in the pancreas of prediabetic and diabetic NOD mice. To verify pathogenicity of IAPP-reactive cells, we sorted KS20 tetramer(+) cells and cloned them from uncloned T cell lines isolated from spleen and lymph nodes of diabetic mice. We isolated a new KS20-reactive Th1 CD4 T cell clone that rapidly transfers diabetes. Our results suggest that IAPP triggers a broad autoimmune response by CD4 T cells in NOD mice.

Entities: CellLine Chemical Disease Gene Species

Mesh：

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Year: 2013 PMID： 24043895 PMCID： PMC3815676 DOI： 10.4049/jimmunol.1301480

Source DB: PubMed Journal: J Immunol ISSN： 0022-1767 Impact factor: 5.422

24 in total

1. Molecular basis for recognition of an arthritic peptide and a foreign epitope on distinct MHC molecules by a single TCR.

Authors: D Basu; S Horvath; I Matsumoto; D H Fremont; P M Allen
Journal: J Immunol Date: 2000-06-01 Impact factor: 5.422

2. Detection of glutamic acid decarboxylase-activated T cells with I-Ag7 tetramers.

Authors: C P Liu; K Jiang; C H Wu; W H Lee; W J Lin
Journal: Proc Natl Acad Sci U S A Date: 2000-12-19 Impact factor: 11.205

3. Structural basis of peptide binding and presentation by the type I diabetes-associated MHC class II molecule of NOD mice.

Authors: R R Latek; A Suri; S J Petzold; C A Nelson; O Kanagawa; E R Unanue; D H Fremont
Journal: Immunity Date: 2000-06 Impact factor: 31.745

4. Evidence for shared recognition of a peptide ligand by a diverse panel of non-obese diabetic mice-derived, islet-specific, diabetogenic T cell clones.

Authors: Kenji Yoshida; Tracy Martin; Ken Yamamoto; Cathleen Dobbs; Christian Münz; Nobuhiro Kamikawaji; Naoko Nakano; Hans-Georg Rammensee; Takehiko Sasazuki; Kathryn Haskins; Hitoshi Kikutani
Journal: Int Immunol Date: 2002-12 Impact factor: 4.823

5. Susceptible MHC alleles, not background genes, select an autoimmune T cell reactivity.

Authors: Thomas Stratmann; Natalia Martin-Orozco; Valérie Mallet-Designe; Laurent Poirot; Dorian McGavern; Grigoriy Losyev; Cathleen M Dobbs; Michael B A Oldstone; Kenji Yoshida; Hitoshi Kikutani; Diane Mathis; Christophe Benoist; Kathryn Haskins; Luc Teyton
Journal: J Clin Invest Date: 2003-09 Impact factor: 14.808

6. Pancreatic islet-specific T-cell clones from nonobese diabetic mice.

Authors: K Haskins; M Portas; B Bergman; K Lafferty; B Bradley
Journal: Proc Natl Acad Sci U S A Date: 1989-10 Impact factor: 11.205

7. Identification of a beta-cell-specific HLA class I restricted epitope in type 1 diabetes.

Authors: Constadina Panagiotopoulos; Huilian Qin; Rusung Tan; C Bruce Verchere
Journal: Diabetes Date: 2003-11 Impact factor: 9.461

8. Detection of autoantibodies against islet amyloid polypeptide in human serum. Lack of association with type 1 (insulin-dependent) diabetes mellitus, or with conditions favouring amyloid deposition in islets. The Belgian Diabetes Registry.

Authors: F K Gorus; J C Sodoyez; D G Pipeleers; B Keymeulen; A Foriers; C F Van Schravendijk
Journal: Diabetologia Date: 1992-11 Impact factor: 10.122

9. Increased insulin secretion and glucose tolerance in mice lacking islet amyloid polypeptide (amylin).

Authors: S Gebre-Medhin; H Mulder; M Pekny; G Westermark; J Törnell; P Westermark; F Sundler; B Ahrén; C Betsholtz
Journal: Biochem Biophys Res Commun Date: 1998-09-18 Impact factor: 3.575

10. Diabetogenic T-cell clones recognize an altered peptide of chromogranin A.

Authors: Thomas Delong; Rocky L Baker; Jing He; Gene Barbour; Brenda Bradley; Kathryn Haskins
Journal: Diabetes Date: 2012-08-21 Impact factor: 9.461

20 in total

Review 1. Autoimmune Responses to Exosomes and Candidate Antigens Contribute to Type 1 Diabetes in Non-Obese Diabetic Mice.

Authors: Yang D Dai; Huiming Sheng; Peter Dias; M Jubayer Rahman; Roman Bashratyan; Danielle Regn; Kristi Marquardt
Journal: Curr Diab Rep Date: 2017-10-28 Impact factor: 4.810

Cutting edge: CD4 T cells reactive to an islet amyloid polypeptide peptide accumulate in the pancreas and contribute to disease pathogenesis in nonobese diabetic mice.

1. Molecular basis for recognition of an arthritic peptide and a foreign epitope on distinct MHC molecules by a single TCR.

2. Detection of glutamic acid decarboxylase-activated T cells with I-Ag7 tetramers.

3. Structural basis of peptide binding and presentation by the type I diabetes-associated MHC class II molecule of NOD mice.

4. Evidence for shared recognition of a peptide ligand by a diverse panel of non-obese diabetic mice-derived, islet-specific, diabetogenic T cell clones.

5. Susceptible MHC alleles, not background genes, select an autoimmune T cell reactivity.

6. Pancreatic islet-specific T-cell clones from nonobese diabetic mice.

7. Identification of a beta-cell-specific HLA class I restricted epitope in type 1 diabetes.

8. Detection of autoantibodies against islet amyloid polypeptide in human serum. Lack of association with type 1 (insulin-dependent) diabetes mellitus, or with conditions favouring amyloid deposition in islets. The Belgian Diabetes Registry.

9. Increased insulin secretion and glucose tolerance in mice lacking islet amyloid polypeptide (amylin).

10. Diabetogenic T-cell clones recognize an altered peptide of chromogranin A.

Review 1. Autoimmune Responses to Exosomes and Candidate Antigens Contribute to Type 1 Diabetes in Non-Obese Diabetic Mice.

Review 2. Neuroendocrine hormone amylin in diabetes.

Review 3. Type 1 diabetes pathogenesis and the role of inhibitory receptors in islet tolerance.

4. CD4 T Cells Reactive to Hybrid Insulin Peptides Are Indicators of Disease Activity in the NOD Mouse.

Review 5. Islet-immune interactions in type 1 diabetes: the nexus of beta cell destruction.

Review 6. Activation pathways that drive CD4⁺ T cells to break tolerance in autoimmune diseases^.

7. Silencing of high-affinity insulin-reactive B lymphocytes by anergy and impact of the NOD genetic background in mice.

8. Cutting Edge: Nonobese Diabetic Mice Deficient in Chromogranin A Are Protected from Autoimmune Diabetes.

9. Human amylin induces CD4+Foxp3+ regulatory T cells in the protection from autoimmune diabetes.

Review 10. The Role of Programmed Death-1 in Type 1 Diabetes.

Review 1. Autoimmune Responses to Exosomes and Candidate Antigens Contribute to Type 1 Diabetes in Non-Obese Diabetic Mice.

Review 2. Neuroendocrine hormone amylin in diabetes.

Review 3. Type 1 diabetes pathogenesis and the role of inhibitory receptors in islet tolerance.

Review 5. Islet-immune interactions in type 1 diabetes: the nexus of beta cell destruction.

Review 6. Activation pathways that drive CD4+ T cells to break tolerance in autoimmune diseases.

Review 10. The Role of Programmed Death-1 in Type 1 Diabetes.

Review 6. Activation pathways that drive CD4⁺ T cells to break tolerance in autoimmune diseases^.