Gene/Protein
Disease
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Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0011854 (
type 1 diabetes
)
20,749
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Genes overexpressed in pancreatic islets of patients with new-onset
type 1 diabetes
are potential candidates for novel disease-related autoantigens. RT-PCR-based subtractive hybridization was used on islets from a patient who died at the onset of
type 1 diabetes
, and it identified a
type 1 diabetes
-related cDNA encoding hepatocarcinoma-intestine-pancreas/pancreatic-associated protein (HIP/
PAP
). This protein belongs to the family of Reg proteins implicated in islet regeneration; its gene contains a putative interleukin-6 (IL-6) response element. Islets from healthy cadaveric human donors released HIP/
PAP
protein into the culture medium, and this release was enhanced by the addition of IL-6. The expression pattern of mouse homologues of HIP/
PAP
was determined in pancreata of prediabetic and diabetic NOD mice. Both groups showed positive immunostaining for HIP/
PAP
in islets and ductal epithelium. To test whether HIP/
PAP
is a target of islet-directed autoimmunity, we measured splenic T-cell responses against HIP/
PAP
in NOD mice. Spontaneous proliferation was detected after 4 weeks. Lymphocytes from islet infiltrates and pancreatic lymph nodes from 7- to 10-week-old NOD mice were used to establish an HIP/
PAP
-specific I-A(g7)-restricted T-cell line, termed WY1, that also responded to mouse islets. WY1 cells homed to islets of NOD-SCID mice and adoptively transferred disease when coinjected with purified CD8(+) cells from diabetic NOD mice. Our conclusion was that differential cloning of Reg from islets of a type 1 diabetic patient and the response of Reg to the cytokine IL-6 suggests that HIP/
PAP
becomes overexpressed in human diabetic islets because of the local inflammatory response. HIP/
PAP
acts as a T-cell autoantigen in NOD mice. Therefore, autoimmunity to HIP/
PAP
might create a vicious cycle, accelerating the immune process leading to diabetes.
...
PMID:A Reg family protein is overexpressed in islets from a patient with new-onset type 1 diabetes and acts as T-cell autoantigen in NOD mice. 1181 40
The Reg family of proteins has been studied in the context of growth and regeneration in several organs including pancreatic islets. We previously suggested that Reg proteins act as autoantigens in
type 1 diabetes
, based on evidence that a member of the Reg family (hepatocellular carcinoma intestine pancreas [HIP]/pancreatitis-associated protein [
PAP
]) was overexpressed in the islets of a patient who died after sudden onset of
type 1 diabetes
, and that, in NOD mice, Reg-specific T-cells adoptively transferred diabetes. In the current study, we developed antisera to detect individual Reg members in mouse islets and found that RegIIIalpha was present in the non-beta-cell portion of the islets, while RegII was predominantly expressed in beta-cells. Vaccination of NOD mice with the separately expressed N-terminal (NtfrII) or C-terminal (CtfrII) portion of RegII revealed a dichotomy: NtfrII vaccination accelerated and CtfrII vaccination delayed
type 1 diabetes
. Vaccination with CtfrII was more effective when given at later stages in the pathogenesis of
type 1 diabetes
, a time dependency different from that seen with other antigen-dependent vaccine strategies in NOD mice, which might have therapeutic implications. In conclusion, RegII is a novel beta-cell-derived autoantigen in NOD mice. The autoimmune response against this protein may convert a regenerative into an islet-destructive process accelerating development of
type 1 diabetes
.
...
PMID:RegII is a beta-cell protein and autoantigen in diabetes of NOD mice. 1719 62
