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)

The immune system is still regarded by many as autonomous, and prolactin (Prl) has traditionally been considered as a lactogenic hormone. Over the last 10 years, the total number of publications considering Prl is decreasing, while the number of those investigating its role in immunity sustainly increased. In addition to the pituitary gland, Prl-like peptides can be produced by activated leukocytes and fibroblasts. Elevated serum levels of Prl in (rat) adjuvant arthritis, (murine) collagen type II-induced arthritis, (murine and human) systemic lupus erythematosus (SLE), and (murine and rat) autoimmune type I diabetes may influence the outcome of the disease. It is suggested that mild hyperprolactinemia is a risk factor for the development of autoimmunity. This can occur under certain circumstances, for example adrenocortical deficiency or postpartum. In human SLE, Prl appears to favor the production of anti-double stranded DNA. While glucocorticoids would damp the immune reactivity, Prl constitutes a stimulatory link between the neuroendocrine and immune systems. Future directions should include: 1) multicenter projects for evaluation of the therapy with Prl-inhibiting compounds in SLE, considering for example the HLA-DRB1 *0301 status; and 2) the regulation of extra-pituitary Prl-like cytokines ("proliferins") (e.g., in rheumatoid arthritis synovium) and their role in the production of catabolic enzymes.
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PMID:Prolactin in autoimmune diseases. 952 Oct 87

Type 1 diabetes mellitus is a disease caused by the autoimmune destruction of insulin-producing pancreatic beta-cells that takes place in genetically prodisposed individuals. Autoantibodies and autoreactive T lymphocytes reacting with islet target molecules or protein of glycolipid nature have been shown in the circulation of individuals and of animal models of type 1 diabetes (NOD mouse and BB rat) before and at the onset of the disease. As far as autoantigens of glycolipid nature is concerned, gangliosides such as GT3, GD3 and especially GM-1, have been shown to be target of autoantibodies associated to autoimmune diabetes. Of particular interest is the islet-specific monosialo-ganglioside GM2-1, which is target of an autoimmune response highly associated to future progression to diabetes development in first degree relatives of type 1 diabetic individuals. This molecule is recognized by IgG autoantibodies which have been detected before the appearance if clinical diabetes both in man and in the NOD mouse, representing a novel marker of beta-cell autoimmunity.
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PMID:Target antigens in autoimmune diabetes: pancreatic gangliosides. 954 77

Leptin, ob gene product, inhibits feeding behavior and stimulates energy expenditure in rodents. Corticotropin-releasing hormone (CRH) and neuropeptide Y (NPY), which act in the hypothalamus to influence energy homeostasis, may mediate the anorexic effect of leptin. The present studies were undertaken to examine the possible involvement of hypothalamic CRH in the anorexigenic action of leptin in male Wistar rats. Recombinant leptin (2 microg/rat), microinjected into the third ventricle, inhibited food intake at 2 h by 33.3% (P < 0.01) in rats that were deprived of food for 18 h. The intracerebroventricular injection of 2 microg leptin also increased hypothalamic CRH content (P < 0.05) at 2 h after its administration. Simultaneous intracerebroventricular administration of 5 microg/rat alpha-helical CRH 9-41 (alpha-hCRH), a CRH antagonist, with 2 microg/rat leptin attenuated the anorexic effect of leptin by 2 h. In contrast, single intracerebroventricular injection of alpha-hCRH did not affect food consumption in food-deprived rats. These results implicate hypothalamic CRH as an important mediator of the anorexic effect of leptin in food-deprived rats.
Diabetes 1998 Jun
PMID:Hypothalamic corticotropin-releasing hormone is a mediator of the anorexigenic effect of leptin. 960 64

Thyroid autoimmune reactions start with an accumulation of mainly dendritic cells in the thyroid. There is increasing evidence that, apart from being antigen-presenting cells, they are also able to control the growth and hormone synthesis of neighbouring endocrine cells. The questions thus arise: are dendritic cells accumulating in the pre-autoimmune thyroid in response to an altered proliferative or metabolic activity of thyrocytes, and do cytokines, monocyte chemoattractants, or both, have a role in their accumulation? We have investigated these questions in thyrocytes of the biobreeding diabetes-prone (BB-DP) rat in relation to the start of the intrathyroid accumulation of dendritic cells--that is, at about 9 weeks of age. BB-DP rats and Wistar rats (controls) were studied from 3 to 20 weeks of age. Hyperplastic goitre development was studied by assessing the thyroid weight and by measuring the number of thyrocyte nuclei per 0.01 mm2 thyroid section. In addition, the in situ expression of interleukin-6 (IL-6), tumour necrosis factor-alpha (TNF-alpha), monocyte-chemotactic protein-1 (MCP-1), and intercellular adhesion molecule-1 (ICAM-1) were studied by immunohistochemistry. The in vitro proliferative capacity of BB-DP and Wistar thyrocytes was measured by tritiated-thymidine ([3H]TdR) and bromodeoxyuridine (BrdU) incorporation into reconstituted, TSH- and non-TSH-stimulated, cultured thyroid follicles. Further in vitro studies consisted of measurement of the production of thyroxine (T4), triiodothyronine (T3), thyroglobulin, IL-6, TNF-alpha and MCP-1 by the thyroid follicles. BB-DP rats developed a small hyperplastic goitre between the ages of 9 and 12 weeks. The in vitro proliferative rate of thyrocytes isolated from hyperplastic BB-DP thyroids was significantly lower than that of Wistar thyrocytes. This phenomenon also occurred in follicles isolated from BB-DP rats before hyperplastic goitre development, which produced significantly less T4, but more T3, than did Wistar follicles of the same age. At the time of and after hyperplastic goitre development, BB-DP follicles exhibited altered metabolic behaviour and produced significantly more T4, but equal amounts of T3 compared with both Wistar follicles of the same age and follicles of younger BB-DP rats (both under basal conditions and TSH-stimulated). In vitro IL-6 production by these BB-DP thyroid follicles was also increased. There was no noteworthy difference in production of thyroglobulin and MCP-1 between BB-DP and Wistar follicles at any age. TNF-alpha was not produced by BB-DP or Wistar thyroid follicles. Immunohistochemistry revealed the expression of IL-6 by both BB-DP and Wistar thyroid follicle cells at all times of sampling. MCP-1 and TNF-alpha were expressed only when infiltrates were present in BB-DP thyroids (restricted to leucocytes, ages > 18 weeks). Modest ICAM-1 expression was restricted to large blood vessels in both BB-DP and Wistar thyroids; in the case of infiltrates (BB-DP rat) alone, high ICAM-1 expression was found on blood vessels and leucocytes in these infiltrations. At the time of intrathyroidal dendritic cells accumulation, BB-DP rats develop a small hyperplastic goitre. At that time there is also in vitro evidence for a shift to a higher production of thyroxine and IL-6 from thyrocyte follicles. The in vitro proliferation rate of BB-DP thyrocytes is, however, abnormally low (both in the pre- and hyperplastic period). Similar pre-autoimmune thyroid growth abnormalities have been described in another animal model of thyroid autoimmune disease, the obese strain chicken.
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PMID:Pre-autoimmune thyroid abnormalities in the biobreeding diabetes-prone (BB-DP) rat: a possible relation with the intrathyroid accumulation of dendritic cells and the initiation of the thyroid autoimmune response. 961 56

Functional porcine islets, free of known pathogens, can serve as a source of insulin producing cells for the treatment of experimentally induced insulin dependent Diabetes Mellitus. Porcine islets can be conformally coated (microencapsulated) with a covalently linked, stable permselective membrane while maintaining islet viability and function. The PEG conformal coating is immunoprotective in a discordant xenograft animal model (porcine islets to rat).
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PMID:Immunoisolation of adult porcine islets for the treatment of diabetes mellitus. The use of photopolymerizable polyethylene glycol in the conformal coating of mass-isolated porcine islets. 961 25

Correlation studies between cytokines expressed in islets and autoimmune diabetes development in NOD mice and BB rats have demonstrated that beta-cell destructive insulitis is associated with increased expression of proinflammatory cytokines (IL-1, TNF alpha, and IFN alpha) and type 1 cytokines (IFN gamma, TNF beta, IL-2 and IL-12), whereas non-destructive (benign) insulitis is associated with increased expression of type 2 cytokines (IL-4 and IL-10) and the type 3 cytokine (TGF beta). Cytokines (IL-1, TNF alpha, TNF beta and IFN gamma) may be directly cytotoxic to beta-cells by inducing nitric oxide and oxygen free radicals in the beta-cells. In addition, cytokines may sensitize beta-cells to T-cell-mediated cytotoxicity in vivo by upregulating MHC class I expression on the beta-cells (an action of IFN gamma), and inducing Fas (CD95) expression on beta-cells (actions of IL-1, and possibly TNF alpha and IFN gamma). Transgenic expression of cytokines in beta-cells of non-diabetes-prone mice and NOD mice has suggested pathogenic roles for IFN alpha, IFN gamma, IL-2 and IL-10 in insulin-dependent diabetes mellitus (IDDM) development, and protective roles for IL-4, IL-6 and TNF alpha. Systemic administrations of a wide variety of cytokines can prevent IDDM development in NOD mice and/or BB rats; however, a given cytokine may retard or accelerate IDDM development, depending on the dose and frequency of administration, and the age and the diabetes-prone animal model studied (NOD mouse or BB rat). Islet-reactive CD4+ T-cell lines and clones that adoptively transfer IDDM into young NOD mice have a Th1 phenotype (IFN gamma-producing), but other islet-specific Th1 clones that produce TGF beta can adoptively transfer protection against IDDM in NOD mice. NOD mice with targeted deletions of IL-12 and IFN gamma genes still develop IDDM, albeit delayed and slightly less often. In contrast, post-natal deletions of IL-12 and IFN gamma, also IL-1, TNF alpha, IL-2, and IL-6--by systemic administrations of neutralizing antibodies, soluble receptors and receptor antagonists, and receptor-targeted cytotoxic drugs--significantly decrease IDDM incidence in NOD mice and/or BB rats. These cytokine deletion studies have provided the best evidence for pathologic roles for proinflammatory cytokines (IL-1, TNF alpha, and IL-6) and type 1 cytokines (IFN gamma, IL-2 and IL-12) in IDDM development.
Diabetes Metab Rev 1998 Jun
PMID:An update on cytokines in the pathogenesis of insulin-dependent diabetes mellitus. 967 67

We recently reported the isolation of the klotho gene, which in predominantly expressed in the kidney and involved in human aging phenotypes. In our previous studies, we demonstrated that the Klotho protein or its metabolites may possibly function as humoral factor(s) and protect against endothelial dysfunction because acetylcholine-mediated NO production in arteries was impaired in heterozygous klotho deficient mice (kl/+). However, the pathophysiological significance of the Klotho protein has not been clarified yet. In the present study, we examined expression of the klotho gene in the kidney of the following rat models for human diseases: (1) spontaneously hypertensive rat, (2) deoxycorticosterone acetate-salt hypertensive rat, (3) 5/6 nephrectomized rat, (4) non-insulin-dependent diabetes mellitus rat (the Otsuka Long-Evans Tokushima Fatty rat), and (5) rat with acute myocardial infarction. The expression levels of klotho mRNA in the kidney in these models were significantly lower than controls except for MI rats. This is the first report showing the expression of the klotho gene in the kidney is regulated under sustained circulatory stress such as long-term hypertension, diabetes mellitus, and chronic renal failure.
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PMID:Downregulation of the Klotho gene in the kidney under sustained circulatory stress in rats. 973 Dec 28

Little is known about the regulation of the mitogen-activated protein (MAP) kinase signaling cascades by hormonal stimulation in vivo. The extracellular signal-regulated kinase (ERK) and the c-jun kinase (JNK) are two MAP kinase signaling pathways that could play a role in the cellular response to hormones such as insulin and epinephrine. We studied the effects of insulin (20 U/rat) and epinephrine (25 microg/100 g body wt) injected in vivo on ERK and JNK signaling in skeletal muscle from Sprague-Dawley rats. Insulin significantly increased ERK phosphorylation and the activity of its downstream substrate, the p90 ribosomal S6 kinase 2 (RSK2), by 1.4-fold, but it had no effect on JNK activity. In contrast, epinephrine had no effect on ERK phosphorylation or RSK2 activity, but it increased JNK activity by twofold, an effect that was inhibited by the presence of combined alpha and beta blockade. Furthermore, the phosphorylation of both p46 and p55 isoforms of JNK, measured by phosphospecific antibody, was increased severalfold. The activity and phosphorylation of MAP kinase kinase (MKK)-4, an upstream regulator of JNK, was unchanged by epinephrine. Incubation of isolated soleus muscles in vitro with epinephrine (10(-5) mol/l) also increased JNK activity by twofold. These data are the first to demonstrate that epinephrine can increase JNK activity. Insulin and epinephrine have different effects on MAP kinase signaling pathways in skeletal muscle, which may be one of the underlying molecular mechanisms through which these hormones regulate opposing metabolic functions.
Diabetes 1998 Oct
PMID:Epinephrine and insulin stimulate different mitogen-activated protein kinase signaling pathways in rat skeletal muscle. 975 91

Recently, we have shown that chronic administration of N-Nitro-L-Arginine Methyl Ester (L-NAME, an inhibitor of nitric oxide synthase) precipitates stroke in stroke-prone spontaneously hypertensive rats (SHRSP). Enalapril maleate, an angiotensin converting enzyme inhibitor was shown to delay the onset of such stroke. In the present study, five groups of 4-week-old SHRSP were used. Three groups of SHRSP were made diabetic using streptozotocin (100 mg/kg i.p.). One week later, the SHRSP from groups I (non-diabetic) and III (diabetic) chronically received L-NAME (0.5 g/L) in saline as drinking water. Two SHRSP groups, II (non-diabetic) and IV (diabetic) received L-NAME (0.5 g/L) and enalapril maleate (20 mg/L) in saline as drinking water. Control SHRSP (group C; diabetic) received only saline to drink. SHRSP groups I and III developed stroke in 10+/-2 and 11+/-2 days, respectively. The average stroke-free period in groups II and IV was 19+/-2 and 28+/-2 days, respectively. Protective effect of streptozotocin-induced diabetes disappeared when SHRSP drinking L-NAME and enalapril, concurrently received subcutaneous injections of insulin (2 units daily per 100 g rat). Present data suggest that experimental diabetes delays the onset of L-NAME-induced stroke in SHRSP only in the absence of angiotensin converting enzyme activity. In addition, diabetes-induced enhancement of stroke-protective effect of enalapril appears to be independent of reduction in mean and systolic blood pressures.
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PMID:Streptozotocin-induced diabetes enhances protective effects of enalapril on nitric oxide-deficient stroke in stroke-prone rats. 987 25

Streptozocin-induced diabetes is associated with alterations in insulin signaling in rat skeletal muscle, including increased insulin receptor substrate-1 phosphorylation and phosphotidylinositol 3-kinase activity. In the current study, we determined the effects of streptozocin-induced diabetes and treatment of diabetes by islet cell transplantation on several proximal insulin-activated signaling proteins. Three groups of male Lewis rats (untreated streptozocin-diabetic animals, islet cell-transplanted diabetic rats, and nondiabetic control rats) were studied in the basal state or 30 min after i.p. insulin injection (20 U/rat). Mixed hindlimb skeletal muscle lysates were used to determine the expression and enzymatic activities of the extracellular regulated kinase 2 (ERK2), p90 ribosomal S6 kinase (RSK2), Akt, and p70 S6 kinase (p70S6k). In all three groups of rats, insulin significantly increased ERK2, RSK2, Akt, and p70S6k activities. There was no effect of diabetes on insulin-stimulated ERK2 activity or ERK2 protein levels. RSK2 expression and insulin-stimulated RSK2 activity were significantly elevated in diabetic rats compared with those in the control animals. Insulin-stimulated Akt activity was also significantly greater in the diabetic animals, but there was no change in protein expression. In contrast, there was a decrease in insulin-stimulated p70S6k activity with no change in protein expression in the diabetic rats. Islet transplantation partially (RSK2) or fully (Akt, p70S6k) normalized these diabetes-induced changes in insulin signaling proteins. We conclude that streptozocin diabetes results in the dysregulation of several critical insulin-activated proteins in rat skeletal muscle, but islet cell transplantation is an effective therapy to partially correct these alterations in insulin signaling.
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PMID:Effects of streptozocin-induced diabetes and islet cell transplantation on insulin signaling in rat skeletal muscle. 988 13


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