Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An autoreactive T cell line, BNY-2, was established from lymphocytes isolated from the islets of acutely diabetic BioBreeding (BB) rats after continuous stimulation of the isolated lymphocytes by irradiated lymph node cells. Flow cytometric analysis showed that BNY-2 cells were positive for CD4 and CD5 and were negative for CD8 and
RT6
, indicating that these cells were phenotypically Th cells rather than cytotoxic T cells. mAbs against rat MHC class II Ags (anti-RT1.D) blocked the proliferation response of BNY-2 cells, suggesting that these cells recognize the MHC class II Du molecule. When splenic T lymphocytes from
diabetes
-prone BB rats were stimulated by Con A in the presence of irradiated BNY-2 cells or irradiated lymph node cells, the BNY-2 cells had a significant suppressive effect on splenic T cell proliferation, whereas lymph node cells had no effect. When we injected
diabetes
-prone BB rats i.v. at 30 and 60 days of age with activated BNY-2 cells, the incidence of
diabetes
was significantly reduced compared with that seen in saline-injected control rats (diabetic incidences were 12 and 80%, respectively). On the basis of these observations, we conclude that autoreactive BNY-2 T cells, established from the pancreatic islets of acutely diabetic BB rats, can prevent the development of autoimmune
diabetes
in the
diabetes
-prone BB rat by an immunosuppressive effect.
...
PMID:Prevention of autoimmune type I diabetes in biobreeding (BB) rats by a newly established, autoreactive T cell line from acutely diabetic BB rats. 793 May 94
We report an association between thymic epithelial defects and predisposition to autoimmunity.
Diabetes
-prone (DP) BB rats develop spontaneous hyperglycemia and are deficient in T cell subsets expressing the
RT6
alloantigen.
Diabetes
resistant (DR) BB rats become diabetic if depleted of RT6+ T cells. The inciting immune system defects are unknown. We made the following observations: 1) Regions of thymic cortex and medulla devoid of thymic epithelium exist in DP-BB, DR-BB, and Lewis rats, all of which are susceptible to autoimmune disorders. Such defects were absent in eight normal rat strains. 2) Thymic epithelial defects are absent at birth, but present in BB rats at 4 weeks of age. 3) The genetic predisposition to thymic epithelial defects is an autosomal dominant trait. 4) The observation of thymic defects in (DP x WF)F1 rats led to the prediction that such animals, which never develop spontaneous autoimmunity, might be susceptible to its induction. Following depletion of RT6+ T cells we observed
diabetes
in 91%, and thyroiditis in 43%, of treated F1 animals (n = 23). Pancreatic insulitis was uniformly present. Because thymic epithelium participates in the positive and negative selection of developing thymocytes, we propose that thymic epithelial defects may play an important role in the predisposition of BB rats to autoimmunity.
...
PMID:Thymic epithelial defects and predisposition to autoimmune disease in BB rats. 799 54
T cells expressing the
RT6
surface alloantigen perform important immunoregulatory functions in the rat.
Diabetes
prone (DP) BB rats are deficient in circulating RT6+ T cells and develop spontaneous autoimmune
diabetes mellitus
. Transfusions leading to engraftment of RT6+ T cells prevent the disease. Coisogenic
diabetes
resistant (DR) BB rats do circulate RT6+ T cells and are free of disease. We investigated the basis for the deficiency of RT6+ T cells in the DP-BB rat and made the following observations. 1. Thymectomy causes the rapid loss of most peripheral T cells in the DP-BB rat. 2. Concomitant with the loss of T cells is the total loss of mRNA encoding
RT6
. 3. In contrast to the effects observed in peripheral lymphoid tissues, thymectomy does not lead to a detectable loss in RT6+ protein found in the small intestine. We conclude that the deficiency of RT6+ peripheral T cells in the DP-BB rat is due either to their short life span or to their reduced proliferative capacity following release from the thymus.
...
PMID:Loss of RT6 message and most circulating T cells after thymectomy of diabetes prone BB rats. 799 52
Pancreatic islet allografts transplanted intrathymically are accepted and restore normoglycemia in streptozotocin-diabetic rats given one injection of antilymphocyte serum. Intrathymic allografts similarly restore normoglycemia in
diabetes
-prone (DP) Bio-Breeding (BB) rats that have developed spontaneous autoimmune
diabetes
. Intrathymic islets also reduce the frequency of subsequent
diabetes
when transplanted prophylactically into young DP rats. These findings suggest that intrathymic transplantation can prevent not only allograft rejection, but also the appearance and recurrence of autoimmune tissue destruction. To explore these hypotheses further, we attempted both to confirm previous studies and to extend them to another model of autoimmune
diabetes
, the
RT6
-depleted
diabetes
-resistant (DR) BB rat. Fewer than 1% of DR-BB rats develop spontaneous
diabetes
, but most become hyperglycemic after in vivo immune elimination of RT6+ T cells. Using the protocols described in the literature, we observed the following: (1) Consistent with previous reports, intrathymic islet allografts survived indefinitely in streptozotocin-diabetic, antilymphocyte serum-treated, non-BB recipient rats. (2) Consistent with previous reports, intrathymic islet grafts produced long-term normoglycemia in diabetic DP-BB rats and also reduced the frequency of spontaneous
diabetes
in young animals transplanted prophylactically. (3) In contrast, intrathymic islets (iso- and allografts) neither prevented nor reversed
diabetes
in
RT6
-depleted DR rats. We hypothesize that intrathymic islet grafts survive in DP-BB rats because they are lymphopenic and immunocompromised, whereas immunocompetent diabetic DR rats successfully recapitulate the autoimmune disease process. Although intrathymic allograft transplantation is postulated to induce a state of tissue-specific tolerance, our results indicate that this tolerant state may not extend to autoimmune destruction of either isografts or allografts.
...
PMID:Evidence that intrathymic islet transplantation does not prevent diabetes or subsequent islet graft destruction in RT6-depleted, diabetes-resistant BioBreeding/Worcester rats. 814 Jun 36
RT6
.2 is a 26-kDa alloantigen expressed only on post-thymic T cells and attached to the cell membrane through a glycosylphosphatidylinositol (GPI) anchor. It has been reported that expression of
RT6
.2 in animal models may correlate with lymphopenia and genetically-induced insulin-dependent
diabetes mellitus
. Its physiological function is unclear. Since
RT6
.2 has significant amino acid identity with a GPI-anchored rabbit muscle NAD:arginine ADP-ribosyltransferase,
RT6
.2 was expressed in rat mammary adenocarcinoma cells and the ability of the expressed protein to catalyze ADP-ribose transfer reactions was examined. Cells transformed with the
RT6
.2 gene expressed NAD glycohydrolase activity that was released from intact cells by phosphatidylinositol-specific phospholipase C, consistent with its presence on the cell surface. A similar activity was not detected with vector-transformed cells.
RT6
.2 did not ADP-ribosylate simple guanidino compounds. The molecular weight of the phosphatidylinositol-specific phospholipase C-released NAD glycohydrolase, determined by SDS-polyacrylamide gel electrophoresis, was 22,000-24,000, in good agreement with that of native
RT6
.2. These results strongly suggest that the rat T cell alloantigen
RT6
.2 is a GPI-anchored NAD glycohydrolase.
...
PMID:Expression of NAD glycohydrolase activity by rat mammary adenocarcinoma cells transformed with rat T cell alloantigen RT6.2. 814 25
RT6
is a rat maturational lymphocyte alloantigen that appears to subserve important immunoregulatory functions. The lymphopenic
diabetes
-prone BioBreeding (BB)/Worcester rat is severely deficient in RT6+ T cells and develops spontaneous autoimmune
diabetes mellitus
. Transfusion of RT6+ T cells prevents the disease. Conversely, in vivo immune elimination of RT6+ T cells from the
diabetes
-resistant line of BB rats induces
diabetes
and thyroiditis.
RT6
protein is expressed in two allotypic forms, each linked to the cell surface by a phosphatidylinositol (PI) anchor. The mechanism by which RT6+ T cells exert their regulatory function is not known, nor is the function of the
RT6
protein defined. In this study, we investigated the possibility that, like other PI-linked proteins,
RT6
also exists in a soluble form in the circulation. Using standard biochemical procedures we observed: (i) Soluble
RT6
circulates in readily detectable amounts in all rat strains studied. (ii) The
diabetes
-prone BB rat circulates less
RT6
.1 than does any other strain, including the coisogenic
diabetes
-resistant line. (iii) Injections of monoclonal anti-
RT6
.1 antibody rapidly eliminate soluble
RT6
from the circulation of
diabetes
resistant BB rats. The existence of a soluble form of a protein associated with immunoregulatory T cells suggests the possibility that soluble
RT6
itself might possess immunomodulatory properties.
...
PMID:The RT6 rat lymphocyte alloantigen circulates in soluble form. 824 75
Diabetes
prone (DP) BB/Wor rats develop spontaneous autoimmune
diabetes mellitus
caused by a T cell-dependent process that destroys pancreatic beta cells. Neither the inciting immune system defect nor the mechanism by which beta cells are destroyed is known with certainty. DP rats are severely deficient in certain T cell subsets including CD8+ cytotoxic T cells (Tc) and RT6+ T cells.
Diabetes
-resistant (DR) BB/Wor rats can be rendered diabetic if depleted of RT6+ T cells. To investigate the mechanisms of beta cell destruction in BB rat
diabetes
, we determined: 1) the relative abundance of Tc and NK cells in the islets of acutely diabetic DP and
RT6
-depleted DR rats and 2) expression of mRNA encoding cytolysin, a cytolytic pore-forming protein produced by both Tc and NK cells. We found that in the islets of acutely diabetic DP rats NK cells were about three times more abundant than in diabetic
RT6
-depleted DR rats. Conversely, in the islets of diabetic DR rats, Tc were three times more abundant than NK cells. In addition, cytolysin gene expression was detected in about 60% of the islets of both DP and DR rats. These data suggest that cytolysin may be a mechanism by which Tc and NK cells damage B cells in vivo.
...
PMID:Cytolysin gene expression in the islets of diabetic BioBreeding/Worcester rats. 825 1
RT6
is a T cell membrane protein that has attracted interest because a defect in
RT6
expression is associated with susceptibility to autoimmune type I
diabetes
in DP-BB rats and NOD mice. Using PCR screening of human/rodent somatic cell hybrids and fluorescence in situ hybridization, we have determined that the gene for the human
RT6
homologue is located at 11q13, centromeric to the gene for tyrosinase (TYR, albino locus) and telomeric to that for fibroblast growth factor 4 (FGF4). The data suggest that the human
RT6
gene constitutes a new linkage group with TYR and the gene for olfactory marker protein (OMP) on 11q, which has a counterpart in mouse chromosome 7. Thus, in the human, the
RT6
locus is dissociated from the hemoglobin beta chain locus (HBB) and its neighboring conserved linkage group at 11p15, in contrast to the mouse, in which
RT6
shows a tighter linkage to Hbb than to Tyr. The results support the conclusion that there has been considerable intrachromosomal reshuffling of linked genes since the divergence of primates and rodents.
...
PMID:Assignment of the human RT6 gene to 11q13 by PCR screening of somatic cell hybrids and in situ hybridization. 828 46
Endothelial activation as evidenced by increased expression of leukocyte adhesion molecules occurs during immune-mediated inflammatory processes. One such process is insulitis, the pancreatic islet inflammation that leads to autoimmune insulin-dependent
diabetes mellitus
(IDDM). To determine if the induction of IDDM correlates with the presence of T lymphocytes capable of activating endothelial cells (EC), we studied the
diabetes
resistant BB (DR) rat. These animals become diabetic after in vivo depletion of T cells expressing the
RT6
alloantigen. Various populations of purified DR T lymphocytes were cocultured with MHC compatible rat EC. We observed: 1)
RT6
- T cells from diabetic animals induced maximal endothelial MHC Ag expression. 2) The ability of
RT6
- T cells to activate EC increased with the duration of in vivo
RT6
depletion. It was acquired before the onset of insulitis but subsided after the onset of
diabetes
. 3) In contrast, neither unsorted total T cells nor in vitro-purified
RT6
- T cells activated EC. 4) Older DR rats depleted of RT6+ T cells did not become diabetic and their
RT6
- T cells did not activate EC. 5) T cell IFN-gamma production correlated with the intensity of EC activation. 6) direct T cell-EC contact was required for maximal IFN-gamma production and EC activation. We conclude that
RT6
- T cells capable of activating EC are generated during the induction of IDDM in DR rats. We hypothesize that such T cell activity may lead to endothelial activation in vivo and contribute to immune-mediated insulitis, beta-cell destruction, and IDDM.
...
PMID:T lymphocytes capable of activating endothelial cells in vitro are present in rats with autoimmune diabetes. 842 30
Inflammatory cytokines, particularly those produced by Th1 type lymphocytes, are hypothesized to play a major role in the pathogenesis of autoimmune diseases. The present studies investigated this hypothesis in the BB rat.
Diabetes
-prone (DP) BB rats develop spontaneous hyperglycemia and thyroiditis. Coisogenic
diabetes
-resistant (DR) BB rats do not develop either disorder spontaneously, but both diseases are induced by depletion of RT6+ T cells. Reverse transcriptase-PCR was used to measure mRNA encoding type 1 and type 2 cytokines. In both DP and
RT6
-depleted DR rats, IFN-gamma mRNA was present in islets before and during disease onset. IL-2 and IL-4 mRNAs were minimal or undetectable in infiltrated islets but present in activated peripheral T cells. IL-10 mRNA was present at low abundance in infiltrating T cells. These observations suggested a Th1 type inflammatory response, and consistent with this interpretation, we observed that mRNA encoding the p40 chain of IL-12 was also present before and during disease onset. Similar cytokine mRNA profiles were observed in the thyroids of
RT6
-depleted DR rats and in the islets of DP rats treated with prophylactic parenteral insulin to prevent
diabetes
. We conclude that IFN-gamma and IL-12 may play a major role in the expression of insulitis and thyroiditis in the BB rat, that Th1 lymphocytes may predominate over Th2 lymphocytes in these inflammatory lesions, and that prevention of
diabetes
by insulin is not associated with an alteration in the cytokine gene profile of islet infiltrating cells.
...
PMID:Cytokine gene expression in islets and thyroids of BB rats. IFN-gamma and IL-12p40 mRNA increase with age in both diabetic and insulin-treated nondiabetic BB rats. 855 12
<< Previous
1
2
3
4
5
6
7
8
Next >>
