Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Type 1, insulin-dependent diabetes mellitus (IDDM) appears to result from a T cell-dependent destruction of insulin-producing pancreatic beta cells. In non-obese diabetic (NOD) mice and in other rodent models of human IDDM, final expression of disease may be controlled by protective, as well as, destructive T cell influences. Previously, a CD8+ T cell clone, I.S. 2.15, was isolated directly from islets of disease-resistant male NOD mice. Upon transfer to young NOD recipients, the non-cytolytic I.S. 21.5 T cell clone, confers in vivo protection from two forms of accelerated IDDM. The present study demonstrates that I.S. 2.15 T cells induce in vitro immunosuppression. The suppressive effects of I.S. 2.15 T cells are mediated through soluble factor(s) and are independent of T cell activation, cell contact, antigen specificity or the major histocompatibility complex (MHC). By polymerase chain reaction (PCR), I.S. 2.15 T cells contain mRNA species encoding for the potentially immunosuppressive cytokines, interleukin-10 (IL-10) and transforming growth factor-beta (TGF-beta). The T cell suppressive effects engendered by I.S. 2.15 T cells closely mimic those observed with TGF-beta. Moreover, I.S. 2.15-induced immunosuppression correlates with intracellular levels of TGF-beta mRNA. These results establish that immunoregulatory T cells are present within islets in IDDM-resistant NOD mice and may impact on final disease expression through the production of soluble mediator(s).
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PMID:A protective NOD islet-infiltrating CD8+ T cell clone, I.S. 2.15, has in vitro immunosuppressive properties. 138 12

The demonstration that functionally different T-cell subsets can be defined by the isoforms of the leukocyte-common antigen, CD45, that they express, has prompted studies on the roles of these subsets in autoimmunity. The results have led to the identification of a particular subset of CD4+ T cells that have the ability to inhibit autoimmune disease. Further, it has been shown that diabetes in the B-B rat can be transferred by in vitro activation of T cells by Staphylococcal enterotoxin suggesting that superantigens may play a role in the pathogenesis of this disease. However, in this system too, it appears that a subset of T cells can inhibit the induction of autoaggressive cells. In other experimental autoimmune diseases there is evidence that CD8+ T cells can be protective and that these cells may mediate this protection by the synthesis of transforming growth factor-beta.
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PMID:T-cell subsets in autoimmunity. 146 96

There are two different classes of humoral growth factors for arterial smooth muscle and endothelial cells that age of potential relevance for the development of macrovascular disease inn diabetes mellitus: hormones (growth hormone, insulin like growth factor I and II, insulin) and locally released growth factors of platelet origin. The following hormones have to be considered: Increased growth hormone plasma levels might contribute to macrovascular disease, but its actual relevance remains to be determined. Insulin like growth factor I and II are present in vivo and stimulate growth of vascular cells in vitro but their relevance for macrovascular disease in diabetes is unproven. To insulin, see Dr. Stout's paper. Human platelets contain at least six growth peptides or proteins that all stimulate in vitro growth of arterial wall cells: platelet derived growth factor, epidermal growth factor, platelet derived endothelial cell mitogen, endothelial growth factor, diabetic serum growth factor (DSGF), transforming growth factor-beta. As their plasma concentrations have not been shown to be increased in diabetes increased local availability at sites of stimulated platelet aggregation has been postulated. Therefore, their relevance for macrovascular disease i diabetics is based mainly on circumstantial evidence. The concentration of DSGF of platelet origin depends on the metabolic control: it increases in vivo in poorly controlled diabetics and is normalized after 2-3 weeks of good metabolic control in the same diabetic patient. The growth potency of DSGF from poorly controlled diabetics is greater than that of physiological amounts of insulin or growth hormone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vascular growth factors and the development of macrovascular disease in diabetes mellitus. 386 80

Oral administration of autoantigens suppresses development of autoimmunity in several animal models, and is being tested in clinical trials in patients with autoimmune diseases such as multiple sclerosis and rheumatoid arthritis. Non-obese diabetic (NOD) mice spontaneously develop insulin-dependent diabetes mellitus at 15 to 20 weeks of age, after mononuclear cell (MNC) infiltration of the pancreatic islets of Langerhans and destruction of insulin-producing beta cells. We have previously shown that oral administration of insulin suppresses insulitis and development of diabetes in the NOD mouse. Oral insulin has no metabolic effect on blood glucose. Oral insulin mediates its effect through a T cell-dependent mechanism as shown by adoptive transfer and T cell depletion experiments, but the mechanisms responsible have not been fully explored. We now report a serial analysis of the cells and cytokines associated with development of diabetes in NOD mice, and contrast this with the findings in animals fed equine insulin or a control protein (ovalbumin). Animals were fed 1 mg twice a week for 5 weeks, beginning at 5 weeks of age. Marked insulitis in naive or ovalbumin-fed NOD mice occurred at 10 weeks, at which time a dense peri-islet and intra-islet MNC infiltration was observed. Immunohistological studies using monoclonal antibodies showed that infiltrating MNC consisted mainly of CD4+ T cells ( > 75% of leukocytes) plus smaller numbers of macrophages and CD8+ T cells. These cells displayed evidence of immune activation with expression of receptors for interleukin-2 (IL-2R) plus Th1 cytokines; dense labeling for IFN-gamma and tumor necrosis factor-alpha, plus lesser amounts of IL-2, was observed. MNC lacked labeling for IL-4, IL-10, prostaglandin-E, or transforming growth factor-beta. By contrast, at 10 weeks, pancreatic tissues from NOD mice fed insulin showed considerably less insulitis, and the residual MNC, although still largely CD4+ T cells plus macrophages, showed dense labeling for IL-4, IL-10, prostaglandin-E, and transforming growth factor-beta and an absence of IL-2, IFN-gamma or tumor necrosis factor-alpha Taken together with our previous findings, these data indicate that oral administration of insulin affects the development of diabetes in NOD mice through the generation of cells that elaborate immunoregulatory cytokines within the target organ and shift the balance from a Th1 to a Th2 pattern of cytokine expression.
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PMID:Suppression of insulitis in non-obese diabetic (NOD) mice by oral insulin administration is associated with selective expression of interleukin-4 and -10, transforming growth factor-beta, and prostaglandin-E. 748 82

Murine macrophages express high levels of nitric oxide synthase and produce large amounts of nitric oxide (NO) when stimulated with certain cytokines in the presence of a trace amount of lipopolysaccharide (LPS). The stimulatory cytokines include interleukin-1 (IL-1), interferon-gamma (IFN-gamma), tumour necrosis factor-alpha (TNF-alpha) and migration inhibitory factor. Activated macrophages are highly effective killers of intra- and extra-cellular pathogens. However, as excessive NO can lead to immunopathology (diabetes, graft-v.-host disease, EAE, liver cirrhosis, rheumatoid arthritis), NO production is necessarily under tight regulation. A number of cytokines, including IL-4, IL-10 and transforming growth factor-beta, can down regulate the induction of NO synthase in macrophages. In addition, macrophages exposed to LPS alone and then stimulated with a mix of IFN-gamma and LPS express significantly lower levels of NO synthase than cells stimulated without pre-exposure to LPS. Furthermore, NO can reduce the activity of NO synthase by feedback inhibition, and also inhibit the production of IFN-gamma by Th1 cells (thus turning off its own synthesis from upstream). The regulatory pathways involve tyrosine kinase and protein kinase C.
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PMID:The role of nitric oxide in parasitic diseases. 751 Jan

Renal injury in diabetes mellitus is a major cause of morbidity and mortality in diabetic patients. There is a clear correlation between the degree of glomerular as well as tubulointerstitial lesions and the development of reduced glomerular filtration rate. The important role of hyperglycemia in the genesis of diabetic renal disease has been strengthened by the application of tissue culture techniques. Recent in vitro studies, first in tubular epithelial cells and subsequently in the three glomerular cell types, have provided supportive evidence that high ambient glucose per se stimulates the synthesis of extracellular matrix components. Increased matrix synthesis and decreased degradation are thought to contribute to matrix accumulation in diabetic nephropathy. These processes are not mutually exclusive and they may be operating simultaneously but at different rates, with increased synthesis predominating early and decreased breakdown later in the course of the disease. Likely mediators of the effects of high glucose involve activation of the polyol pathway, altered myo-inositol metabolism, increased protein kinase C activity, and/or nonenzymatic glycation of various matrix proteins. A role for various growth factors, especially transforming growth factor-beta, also seems likely. However, the details of the cell-signaling mechanisms and the putative molecular mediators of the effect of hyperglycemia remain to be firmly established.
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PMID:Mediators of hyperglycemia and the pathogenesis of matrix accumulation in diabetic renal disease. 756 78

During the past decade, experimental and clinical evidence has indicated an important role for the renin-angiotensin system in the progressive destruction of nephrons in a wide variety of chronic renal diseases. Studies have indicated that in the subtotally nephrectomized rat model of progressive glomerulosclerosis, in experimental diabetes mellitus, in the chronic phase of puromycin aminonucleoside-induced nephrotic syndrome and in Heymann's nephritis, angiotensin-converting enzyme (ACE) inhibitors dramatically preserve both nephron structure and function. Clinical studies have similarly noted that chronic administration of ACE inhibitors inhibits progression of renal failure in type I diabetes and type II diabetes as well as primary glomerulopathies, sickle cell nephropathy, systemic lupus erythematosis, chronic pyelonephritis and adult polycystic kidney disease. Current evidence suggests that the beneficial effect of ACE inhibitors is primarily due to inhibition of angiotensin II production, and there is strong suggestive evidence for increases in local intrarenal activation of the renin-angiotensin system in these conditions. In obstructive uropathy, activation of the renin-angiotensin system has also been shown to be an important aspect of the early functional changes and may be of importance in the subsequent generation of interstitial fibrosis. In the obstructed kidney, renin and angiotensinogen production increase and type I angiotensin receptors decrease. Inhibitors of angiotensin II production and angiotensin II action partially reverse the vasoconstriction and the reduced renal blood flow, and abolish the changes in expression of AT1 MRNA induced by obstruction. Studies suggest that the angiotensin-mediated increases in tubulointerstitial fibrosis may be mediated by increased production of transforming growth factor-beta.
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PMID:Angiotensin II-mediated renal injury. 756 81

Low-density lipoprotein (LDL) cholesterol has been implicated in the pathogenesis of glomerulosclerosis in diabetes and other forms of glomerular injury. In the present study we evaluated the effect of LDL on fibronectin synthesis in cultured rat mesangial cells (MCs) and the roles of protein kinase C (PKC) and transforming growth factor-beta (TGF-beta) in mediating this LDL action. In MCs, 25 micrograms to 100 micrograms/ml LDL increased PKC activity within 15 minutes, as reflected by enhanced in situ phosphorylation of the 80 kd myristoylated alanine-rich C kinase substrate protein, a specific endogenous substrate of PKC in MC. The same concentrations of LDL subsequently (18 to 72 hours) enhanced fibronectin synthesis, as reflected by increased incorporation of labeled methionine into fibronectin. GF 109203X, a selective inhibitor of PKC, blocked increases in both PKC activity and fibronectin synthesis induced by LDL in MCs. Furthermore, prior downregulation of PKC to less than 1% of basal activity by exposure of MCs to 0.5 mumol/L phorbol myristate acetate (PMA) also prevented LDL stimulation of fibronectin synthesis. The activation of PKC by LDL seen after 15 minutes of exposure was transient and was not observed after 4 or 48 hours of exposure of MCs to LDL. However, exposure to LDL for 48 hours, but not for 15 minutes or 4 hours, increased both maximal PKC responses to phorbol dibutyrate (PDBu) and tritiated PDBu binding to MCs by 30%. These findings suggest that chronic exposure to LDL increases the total PKC content in MCs and thereby might modulate responses to other PKC agonists. Neither the cyclooxygenase inhibitor piroxicam nor the thromboxane/prostaglandin endoperoxide receptor blocker Sq-29548 altered LDL stimulation of fibronectin synthesis in MCs, suggesting that this action of LDL was not mediated by changes in MC eicosanoid generation. By contrast, antibody to TGF-beta blocked LDL stimulation of fibronectin synthesis in MCs. TGF-beta bioactivity, determined with the mink lung epithelial cell assay, was two to three times higher in the medium of MCs cultured with LDL for 24 to 48 hours as compared with corresponding control values. Total TGF-beta bioactivity examined after heat activation of latent TGF-beta was also two times higher in the medium of MCs exposed to LDL as compared with that of controls. Prior down-regulation of PKC by exposure of MCs to PMA blocked the increases in TGF-beta bioactivity induced by LDL.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Low-density lipoprotein stimulation of mesangial cell fibronectin synthesis: role of protein kinase C and transforming growth factor-beta. 782 50

The urinary bladder responds to distension induced by a number of different stresses with rapid and substantial increases in bladder mass and concomitant alterations in the contractile responses to neuronal stimulation, pharmacological simulation by autonomic agonists, and membrane depolarization. Furosemide, sucrose, or diabetes-induced diuresis, as well as outlet obstruction and overdistension all produce similar effects on the bladder. Accompanying the increases in bladder mass and contractile changes are increases in DNA synthesis and [3H]-thymidine uptake. Autoradiographic studies have localized the increased DNA synthesis following bladder distension initially to the urothelium, followed by slower increases in labelling of the lamina propria and extramural connective tissue. The net result of these compartmental differences in DNA synthesis is a reorganization of the structural relationships between smooth-muscle cells, the connective-tissue matrix, and the extrinsic connective-tissue lamina. This may contribute to the functional changes which occur after severe overdistension. Increases in the expression of heat-shock protein-70, basic fibroblast growth factor, N-ras, and c-myc, and decreases in transforming growth factor-beta occurred acutely after obstruction, suggesting that these changes may play a role in obstruction-induced bladder hypertrophy. Removal of the obstruction induces apoptosis of urothelial and connective tissue elements in the bladder, accompanied by increases in transforming growth factor-beta and decreases in basic fibroblast growth factor genes, and a reversal of the bladder dysfunction. Therefore the bladder hyperplasia after outlet obstruction and the regression following removal of the obstruction seem to be directly opposing processes governed by gene expression.
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PMID:Update on bladder smooth-muscle physiology. 786 23

The effects of transforming growth factor-beta (TGF-beta) on insulin secretion were investigated using a glucose-responsive clonal cell line, MIN6. One hundred pM TGF-beta stimulated insulin release during 0.5-24 h of incubation in the presence of 5.5 mM glucose, but not after 48 h; 1 nM TGF-beta also stimulated insulin release up to 2 h of exposure, but the effect was not seen after 6 h of exposure. When cells were incubated with 25 mM glucose for 24 h, 100 pM TGF-beta significantly inhibited glucose-stimulated insulin release, whereas insulin release was not altered at 0 or 2.8 mM glucose. On the contrary, forskolin- (10 microM) and tolbutamide- (40 microM) induced insulin release were not affected by TGF-beta. TGF-beta affected neither the cell growth nor the cellular insulin content. An addition of 1 microM nitrendipine abolished TGF-beta-induced insulin secretion at 5.5 mM glucose. The presence study shows that TGF-beta exerts a bimodal effect on glucose-induced insulin secretion from MIN6 cells, depending on dose, time of exposure and concentrations of coexisting glucose. These effects might be mediated by the Ca(2+)-dependent mechanism.
Diabetes Res Clin Pract 1994 Nov
PMID:Bimodal effect of transforming growth factor-beta on insulin secretion in MIN6 cells. 787 52


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