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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Injection of
major histocompatibility complex
(
MHC
)-compatible bone marrow cells from normal animals into neonatal BB rats resulted in a striking decrease in incidence of
diabetes
and restoration of concanavalin A (ConA) and mixed lymphocyte responses. However, injection of bone marrow cells pretreated with anti-rat thymocyte antiserum plus complement to remove mature T cells had no effect on incidence of disease, suggesting that mature T cells in the bone marrow inoculum were responsible for prevention of
diabetes
. Because the decreased incidence of
diabetes
in rats injected with untreated bone marrow appeared to be unrelated to the extent of lymphopenia in these animals, the involvement of T cells in the onset of
diabetes
must reflect a defect in the normal function of these cells rather than their absolute number. Approximately 50% of the W3/13+ cells in the spleens of BB rats lacked the OX-8 and W3/25 T cell subset markers. The identity of this W3/13+, OX-8-, W3/25- blank subset remains to be established. Our results, interpreted in light of studies from the other laboratories, suggest the existence of multiple abnormalities in the BB rat, including the presence of T cells as effector or helper cells that augment onset of disease and the absence of a regulatory T cell circuit that could prevent the disease.
Diabetes
1986 Sep
PMID:Prevention of diabetes in BB rats. I. Evidence suggesting a requirement for mature T cells in bone marrow inoculum of neonatally injected rats. 294 18
A novel approach has previously been reported to induce an insulin-dependent (type 1)
diabetes mellitus
in Wistar and Lewis rats by subdiabetogenic dose of the beta cell toxic agent streptozotocin injected i.p. 24 h after a polyclonal activator of lymphocytes, the complete Freund's adjuvant, was administered. The results from a comparative study in Wistar rats and congenic Lewis rats of the haplotype RT1a and RT1u demonstrate that both the genetic background and genes linked to the
major histocompatibility complex
are probably involved in the genetic control of susceptibility to the induction of hyperglycaemia in this experimental
diabetes
model. The susceptibility to hyperglycaemia was strongly associated to the non-specific activation of the immune system by administration of complete Freund's adjuvant only. From these data it is suggested that the genetic control of
diabetes
induction in this animal model is caused by genetic control of the immune/autoimmune reactivity involved in the mechanisms of beta cell destruction.
...
PMID:Genetic control of susceptibility to severe hyperglycaemia evoked by CFA/SZ-induced immune response against beta cells in various rat strains. 297 97
Class I and II
major histocompatibility complex
(
MHC
) probes can be used to subdivide
diabetes
-prone BB rats and their BBN control strain, coderived from the same outbred colony by selection against
diabetes
. Class II probes (A-alpha in particular) distinguish four restriction fragment length polymorphisms (RFLP), termed 1a, 1b, 2a, and 2b, in the BBN population, only one of which (2a) is found in BB rats. The degree of class II RFLP in the population studied is RT1.B-alpha greater than or equal to RT1.B-beta greater than RT1.D-alpha greater than or equal to RT1.D-beta, suggesting that intra-class II region dynamics may be different in rats compared with mice. A class I probe (S16) absolutely distinguished BB from BBN rats, since all BB rats exhibit an RFLP pattern termed 2a0, while 2a BBN rats can be subdivided into 2a1 and 2a2 forms. Serologic evaluation has shown that 2a0, 2a1, and 2a2 rats express RT1.AuBu, 1a rats express RT1.AaDa, and 1b rats express neither RT1a nor RT1u at the loci tested. A breeding study was carried out to determine the diabetogenicity of the
MHC
-defined RFLP's. As expected, the BB-derived 2a0 is diabetogenic. The BBN-derived 2a1 and 2a2 RFLPs are also diabetogenic, while 1a and 1b rats do not carry
MHC
-linked diabetogenic genes. The
MHC
-linked
diabetes
gene acts in a functionally recessive manner, since there is a 10-fold higher incidence in homozygotes than in heterozygotes. Analysis of the RFLP patterns leads us to hypothesize that the 2a1 RFLP results from a crossover between 1a and 2a0 MHCs and that the diabetogenic
MHC
-linked gene is on the class II side of Qa and T1. The availability of three diabetogenic
MHC
haplotypes should help localize the
MHC
-linked diabetogenic gene of rats.
...
PMID:Major histocompatibility complex restriction fragment length polymorphisms define three diabetogenic haplotypes in BB and BBN rats. 299 15
Examination of the histocompatibility region of the nonobese diabetic (NOD) mouse with antibodies against class II glycoproteins (products of immune response genes of the
major histocompatibility complex
I-A and I-E), hybrid T-cell clones, and mixed-lymphocyte cultures and analysis of restriction fragment length polymorphisms indicate that the NOD mouse has a unique class II
major histocompatibility complex
with no expression of surface I-E, no messenger RNA for I-E alpha, and an I-A not recognized by any monoclonal antibodies or hybrid T-cell clones studied. In crosses of NOD mice with control C3H mice, the development of
diabetes
was dependent on homozygosity for the NOD mouse's unique major histocompatibility region.
...
PMID:The NOD mouse: recessive diabetogenic gene in the major histocompatibility complex. 300 9
Class I major histocompatibility antigens are composed of a heavy chain that is noncovalently associated with beta 2-microglobulin (beta 2m). Most class I molecules are membrane bound, but mouse and rat cDNA clones and genes without a functional code for the transmembrane amino acids have been identified. The membrane-associated class I molecules are important in the control of cell-mediated cytotoxicity, while the function of the soluble molecules remains unclear. Previous studies have shown that beta 2m circulates in rat serum in three different molecular weight classes. The first is free beta 2m (Mr, 12,000), the second is about Mr 70,000, and the third is roughly Mr 200,000. In an inbred subline of immunodeficient,
diabetes
-prone BioBreeding rats (BioBreeding/Hagedorn), previous work detected two restriction fragment polymorphisms in class I
major histocompatibility complex
genes, one of them a gene deletion on a 7-kilobase BamHI fragment and the other on a 2-kilobase BamHI fragment. In these rats we have found that the third serum beta 2m-binding size class is absent. Analysis of F1 and F2 individuals following cross-breeding between BioBreeding/Hagedorn rats and genetically related (nondiabetic) control BioBreeding w-subline rats demonstrated that the large-size serum peak of beta 2m was associated with the presence of the class I restriction fragments.
...
PMID:A deletion in a rat major histocompatibility complex class I gene is linked to the absence of beta 2-microglobulin-containing serum molecules. 301 11
To examine whether products of the immune system interact with the pancreatic beta-cell, rat insulinoma cells (RIN-m5F line) were cultured in the presence of conditioned medium from concanavalin A-activated mouse spleen cells (CAS medium). Indirect immunofluorescence and flow cytometry revealed that after culture in CAS medium, RIN-m5F cells had an 8- to 10-fold increase in class I
major histocompatibility complex
(
MHC
) proteins, whereas class II
MHC
proteins remained undetectable, and the level of insulin and/or insulin-like growth factor 1 receptors was unchanged. The stimulation of class I
MHC
expression on RIN-m5F cells by CAS medium could be mimicked by recombinant interferon-gamma. Analysis of 125I-surface-labeled cells by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography revealed that in the presence of CAS medium, there was a major increase in the expression of proteins of 48,000, 32,000, and 12,000 Mr and a minor increase in proteins of 17,000 and 9,000 Mr. Precipitation with monoclonal antibody identified the 48,000- and 12,000-Mr proteins as the class I
MHC
protein and beta 2-microglobulin, respectively. The ability of lymphokine-conditioned medium to increase the expression of RIN-m5F cell surface proteins, including the class I
MHC
proteins, provides a potential mechanism for enhancing the immune-mediated destruction of the beta-cell.
Diabetes
1986 Nov
PMID:Expression of class I MHC proteins on RIN-m5F cells is increased by interferon-gamma and lymphokine-conditioned medium. 301 6
Modulation in
major histocompatibility complex
(
MHC
) gene expression correlates with the inflammatory reactions that occur during graft rejection and autoimmune disease. We analyzed the expression of class I and II
MHC
genes in the pancreatic islets of prediabetic and newly diabetic BB rats by immunohistochemistry of tissue sections and Northern blotting of RNA extracted from isolated islets. We show that enhanced levels of MHC class I heavy-chain RNA are present in pancreatic islets before overt inflammation and the onset of insulin-dependent
diabetes mellitus
(IDDM) in the spontaneously diabetic BB rat. Immunohistochemical analysis revealed enhanced class I antigen expression throughout the pancreatic islets of newly diabetic animals but no induction of class II antigen on endocrine cells within the islet. Varying degrees of inflammatory infiltrate were observed in the sections exhibiting enhanced class I antigen expression or in nearby serial sections. Southern blot analysis revealed no restriction-fragment-length polymorphism or amplification of the endogenous class I heavy-chain genes compared with those of seroidentical disease-resistant Wistar-Furth rats. I-A alpha and I-E alpha hybridizing RNA appeared de novo before overt
diabetes
, although concomitantly with T-lymphocyte-receptor beta-chain and interferon-gamma gene hybridizing RNA and after MHC class I heavy-chain RNA enhancement was observed. These data indicate the possibility that enhanced class I heavy-chain gene expression plays a role in the progression of IDDM.
Diabetes
1988 Oct
PMID:IDDM in BB rats. Enhanced MHC class I heavy-chain gene expression in pancreatic islets. 304 71
The pathogenetic mechanisms leading to beta-cell destruction and insulin-dependent
diabetes mellitus
(IDDM) are
major histocompatibility complex
(
MHC
) nonrestricted and are
MHC
associated and beta-cell specific. The macrophage peptide hormone interleukin 1 (IL-1) may be the primary
MHC
-nonrestricted beta-cell-destructive molecule. Beta-Cell death most likely results from free radical induction by IL-1. Thus, islet cell-specific antibodies and cytotoxic T-lymphocytes are secondary in importance and time. The potentiation of IL-1 effects on beta-cells by tumor necrosis factor alpha (TNF), another macrophage hormone controlled by a gene in the HLA region on chromosome 6, may account for the
MHC
association of IDDM. In the experimental model of IDDM etiopathogenesis described, release of beta-cell antigen, processed and presented by macrophages to helper T-lymphocytes, initiates a self-perpetuating and self-limiting circuit of cytokine production of which IL-1 is beta-cell cytotoxic. As postulated, the IL-1 effect is potentiated by TNF, whereas IL-1 and/or TNF production is controlled in a quantitative way by HLA-D genes.
Diabetes
Care
PMID:Mechanisms of pancreatic beta-cell destruction in type I diabetes. 306 87
We have fed rats prone to developing spontaneous insulin dependent diabetes mellitus (IDDM) defined diets in which casein was the sole source of protein and the fat content was either menhaden oil, safflower oil, or corn oil. The incidence of IDDM was compared to that in litter mates fed rat chow. Animals receiving the defined diets had a lower frequency of overt IDDM than did animals receiving rat chow. The effect was seen only when the diet was introduced before the animals had reached the age of 30 days. The defined diets did not affect the distribution of peripheral blood T lymphocytes. Rats fed defined diets had decreased intensity of expression of Class I
major histocompatibility complex
(
MHC
) products on the endocrine cells of the pancreas compared to animals receiving rat chow.
Diabetes
Res 1988 Oct
PMID:The effect of diet on the spontaneous insulin dependent diabetic syndrome in the rat. 307 33
Transplantation of cultured islet and pituitary tissue from PVG (RT1c) donors to
major histocompatibility complex
-incompatible BB/D recipients (RT1u) results in tissue-specific destruction of the grafted islets but not of the pituitary. We interpret this response as disease occurrence in the MHC-incompatible islet graft. Islet damage is associated with eosinophil and mast cell accumulation in and around the grafted tissue. Antibody deposition is also present in tissues of the BB rat. This is suggestive of an antibody-mediated allergic reaction.
Diabetes
1986 Jan
PMID:Islet allografts are destroyed by disease occurrence in the spontaneously diabetic BB rat. 307 13
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