Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0155339 (Brown)
 12,436 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Brown fat cells isolated from adult golden hamsters have earlier been found to respond to addition of the physiological agonist norepinephrine with an increased rate of oxygen consumption and with fatty acid release. Working with these cells, we found the following. 1. The presence of albumin in the incubation medium (phosphate buffer) increases norepinephrine-induced fatty acid release and tends to stabilize the rate of oxygen consumption; bubbling of phosphate buffer with 5% CO2 in air has only a slight effect on fatty acid release. 2. In the presence of albumin, the norepinephrine-induced rate of oxygen consumption is also stable in bicarbonate buffer; it is higher than in the phosphate + CO2 buffer and the brown fat cells have a higher sensitivity to norepinephrine. 3. 20 mM phosphate (as e.g. present in a phosphate buffer) inhibits both fatty acid release and oxygen consumption. 4. Insulin inhibits the rate of oxygen consumption, but only at suboptimal concentrations of norepinephrine. 5. Atractylate inhibits submaximal norepinephrine-induced respiration, indicating that some oxidative phosphorylation takes place in norepinephrine-stimulated brown fat cells. 6. Fatty acid export from brown fat should be regarded as physiologically important.
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PMID:Norepinephrine-stimulated fatty-acid release and oxygen consumption in isolated hamster brown-fat cells. Influence of buffers, albumin, insulin and mitochondrial inhibitors. 45 45

Infant rats were injected with prednisolone (0.5-5 mg/100 g wt). This caused phosphoenolpyruvate carboxykinase (PEPCK) activity to rise in liver and to decrease in brown fat. Fatty acid synthetase (FAS) activity remained unchanged in liver but increased in brown fat. A single injection of prednisolone caused hepatic PEPCK activity to remain elevated for at least 7 days. Brown fat FAS also remained high for that period. However, brown fat PEPK activity returned to normal on the third day after the injection. A single injection of prednisolone or cortisone to 5-day-old rats caused a transient elevation of the blood level of insulin and a prolonged decrease in that of growth hormone. No effect on the level of glucagon was noted. Injections of insulin had effects similar to those of prednisolone, i.e. a rise in hepatic and a fall in brown fat PEPCK. Using antibodies prepared to hepatic PEPCK it was shown that the observed changes were due to changes in the rate of synthesis of the enzyme. Using actinomycin D indirect evidence was obtained that changes in FAS activity of brown fat were also due to changes in the synthetic rate.
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PMID:Regulation of phosphoenolpyruvate carboxykinase and fatty acid synthetase in brown fat of suckling rats. 74 53

The insulin-regulatable glucose transporter (GLUT-4) is expressed in adipose tissue and in cardiac and skeletal muscle (D. E. James, R. Brown, J. Navarro, and P. F. Pilch. Nature Lond. 333: 183-185, 1988). We examined GLUT-4 development between postnatal days 1 and 41 (P1-P41) in male and female rats in these tissues by quantitative immunoblotting. GLUT-4 was detectable in each tissue at comparable levels at P1. However, the subsequent patterns of GLUT-4 development were distinctive. GLUT-4 increased in the diaphragm after P7, peaked at P20, and then declined. GLUT-4 expression in the heart increased rapidly after P7 to plateau on P41 at levels four times greater than the diaphragm. In sharp contrast, adipose tissue expression was highest between P3 and P5 but declined to a nadir at P20 before rebounding at P34. These patterns were observed for both sexes within each tissue, but female GLUT-4 expression was higher in diaphragm and heart and lower in adipose tissue. The expression of GLUT-4 appears to be regulated in a tissue-specific manner by a developmental program that may coordinate the expression of other proteins of metabolic importance.
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PMID:Developmental expression of insulin-regulatable glucose transporter GLUT-4. 163 86

The ability to prepare purified islet Beta-cell aggregates was used to examine the survival of this cell type after allotransplantation in diabetic BB rats. The aggregates were intraportally implanted in numbers that were previously found to correct a streptozotocin-induced diabetic state in syngeneic or allogeneic Brown Norway recipients. When the grafts were prepared from RT1u/l donors, which shared the MHC-class I antigen with the BB recipients (RT1u/u), their implant sites became diffusely infiltrated by inflammatory cells and their metabolic function was completely lost within 5 weeks. MHC-class I incompatible islet Beta-cell allografts (RT1n/n) exhibited a longer survival, in particular when combined with other islet endocrine cells and/or when covered by a 5-week cyclosporin treatment. In the latter combination, 10 of 12 BB rat recipients remained normoglycaemic over the 10-week observation period, their liver implants presenting a comparable insulin reserve and similarly discrete mononuclear cell infiltration as streptozotocin-diabetic Brown Norway rats receiving this treatment. However, administration of cyclosporin to diabetic BB rats was associated with a morbidity that was not observed in drug-treated streptozotocin-diabetic Brown Norway animals or in untreated diabetic BB rats. It is concluded that MHC-incompatible islet Beta cells can induce a long-term normalization in diabetic BB rats provided that they are implanted under conditions which allow allograft acceptance. The standardized preparation of purified islet Beta-cell grafts can help assessing the conditions for successful transplantations in diabetes with an autoimmune origin.
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PMID:Transplantation of purified islet cells in diabetic BB rats. 183 11

Our objective was to find out if central injection of neuropeptide Y (NPY) would alter brown fat thermogenesis and white fat lipoprotein lipase activity. The following three groups of Sprague-Dawley rats received five injections over 24 h into the right lateral ventricle: 1) NPY (5 micrograms/injection) and ad libitum food; 2) NPY (5 micrograms/injection) and food restricted to control intake; 3) saline injection and ad libitum food. The NPY ad libitum-fed group consumed more food than the saline controls or NPY food-restricted animals. Brown fat thermogenic activity, assessed by GDP binding, was decreased relative to saline controls in both NPY-treated groups. White fat lipoprotein lipase activity was greatly increased in both NPY treatment groups compared with saline controls. The NPY effects on brown and white fat were not explained by measures of serum insulin, glucagon, glucose, or other metabolites. In a follow-up experiment, we asked whether food was necessary for expression of the NPY effects. Brown fat mitochondrial GDP binding indicated NPY effect even when no food was ingested. We conclude that intracerebroventricular administration of NPY promotes white fat lipid storage and decreases brown fat thermogenesis in addition to its known effect of stimulating food intake.
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PMID:Effects of intracerebroventricular injection of neuropeptide Y on energy metabolism. 199 19

Chemically induced autoimmunity is a recently recognized environmental hazard that may affect individuals genetically predisposed to autoimmune disease and chronically exposed to certain chemicals. For example, moderate concentrations of mercury may lead to renal autoimmune disease in a small but significant percentage of the exposed population. Mercury also induces autoimmune glomerulonephritis in susceptible Brown Norway (BN) and MAXX inbred strain rats. Autoimmune responses, directed to epitopes of the renal glomerular basement membrane (GBM), are rapid in onset and have a self-limiting course in mercury-treated rats. Both regulatory T cells and idiotype-anti-idiotype network have been implicated in the resolution of this autoimmune process. In our investigations of immune regulation of mercury-induced autoimmune glomerulonephritis, we have used flow cytometry to quantitate lymphocyte subpopulations in the spleen and lymph nodes of mercury-treated and control BN rats. Of particular interest was the RT6+ T cell subset, that appears to have important immunoregulatory properties in a rat model of autoimmune insulin-dependent diabetes mellitus. Spleen and lymph nodes from control BN rats contained 22 and 52%, respectively, RT6+ cells. Spleens from mercury-treated animals contained 21% RT6+ cells on Day 10 of treatment, 13% on Day 17, 16% on Day 24 and 20% on Day 30. Lymph nodes from the same rats had 36% RT6+ cells on Day 10, 23% on Day 17, 29% on Day 24, and 28% on Day 30. The decrease in RT6+ cells correlated inversely with autoimmune responses to GBM, which peaked on Days 17-24 and declined by Day 30. Moreover, autoimmune responses were also associated with elevated RT6-:RT6+ T cell ratios. Similar results were obtained in two additional groups of BN rats, comprising both younger and older animals, sacrificed at Day 18 of mercury treatment. Analysis of other lymphocyte subpopulations demonstrated a decrease of CD4+ and CD5+ cells, whereas B cells as well as CD8+, IL-2 receptor+, and MHC class II+ subsets showed no consistent correlation with the onset or resolution of the autoimmune process. These findings suggest that mercury-induced changes in RT6+ T lymphocytes may be related to the development of renal autoimmune disease in genetically predisposed BN rats.
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PMID:Reduction of the RT6.2+ subset of T lymphocytes in brown Norway rats with mercury-induced renal autoimmunity. 201 77

Previous studies showed that administration of dehydroepiandrosterone (DHEA) to lean and genetically obese Zucker rats reduced body weight. In the present experiments, the effect of DHEA treatment in rats with diet-induced obesity was evaluated. In experiment 1, male Sprague-Dawley rats (300 g) were fed a nonpurified diet (reference group) or a condensed milk-corn oil nonpurified diet [diet-induced obese (DIO) rats] for 7 wk. Then, 0.6% DHEA was included in the food of one-half of the DIO rats (DIO + DHEA rats). After 6 wk, DIO rats weighed 23% more and had greater fat pad weights, cell size and cell number than reference and DIO + DHEA rats. Brown fat mitochondrial respiration was similar in all groups. DIO rats had higher serum cholesterol and triacylglycerol concentrations than reference and DIO + DHEA rats. DIO + DHEA rats had lower serum insulin levels than DIO and reference rats. In experiment 2, male Sprague-Dawley rats (460 g) were fed either the nonpurified diet or the condensed milk diet for 8 wk. Condensed milk-fed rats were then divided into DIO and diet-resistant groups. One-half of the rats in each group were fed 0.6% DHEA for 2 wk. Body weights and serum glucose, insulin, triacylglycerol and triiodothyronine levels were lowered by DHEA treatment in all groups. Liver mitochondrial state 3 respiration rates per gram and per liver and peroxisomal beta-oxidation were higher in DHEA-treated than in control rats. In DIO rats, DHEA treatment appears to interfere with hyperplastic adipose tissue growth. In this strain of rats, DHEA appears to have hypolipidemic and hypoinsulinemic effects.
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PMID:Effects of dehydroepiandrosterone treatment in rats with diet-induced obesity. 214 87

The effects of insulin and norepinephrine on glucose transport, glucose uptake, and cell respiration were investigated in isolated rat brown adipocytes. Glucose transport and uptake were determined using [U-14C]-D-glucose and 2-deoxy-[1,2-3H]-D-glucose, respectively. Brown adipocyte respiration was measured polarographically. Dose-response experiments revealed that insulin stimulated D-glucose transport and 2-deoxyglucose uptake between 10(-11) and 10(-7) M with a maximal four- to sixfold stimulation. In the absence of insulin, norepinephrine concentrations ranging from 10(-7) to 10(-7) M also enhanced glucose transport and uptake with a maximal two- to fourfold stimulation. Experiments with alpha- and beta-adrenergic agonists and antagonists showed that the effect of norepinephrine was predominantly mediated via beta-adrenergic pathways. Dibutyryl cyclic AMP and 3-isobutyl-1-methylxanthine also increased glucose transport, suggesting that the effects of norepinephrine are cyclic AMP dependent. Moreover, norepinephrine (10(-8) M) enhanced insulin sensitivity for glucose transport [half-maximum velocity constant (1/2 V max)] but failed to potentiate insulin responsiveness (Vmax). On the other hand, insulin (10(-9) M) had no effect on basal respiration but rapidly inhibited the calorigenic effect of norepinephrine (10(-7) M) by greater than 50%. These results demonstrate that 1) in the absence of insulin, physiological concentrations of norepinephrine stimulate glucose transport via beta-adrenergic pathways, 2) the neurohormone synergistically potentiates brown adipocyte submaximal insulin responses for glucose transport, and 3) insulin counteracts the effects of norepinephrine on brown adipocyte thermogenesis despite the fact that both hormones enhance glucose uptake.
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PMID:Stimulation of glucose transport by insulin and norepinephrine in isolated rat brown adipocytes. 247 26

We have recently described a monoclonal antibody (1F8) that recognizes a form of glucose transporter unique to fat and muscle (James, D. E., Brown, R., Navarro, J., and Pilch, P. F. (1988) Nature 333, 183-185), tissues that respond acutely to insulin by markedly increasing their glucose uptake. Here, we report that rat adipocytes possess two immunologically distinct glucose-transporters: one recognized by 1F8, and one reactive with antibodies raised against the human erythrocyte glucose transporter. Immunoadsorption experiments indicate that these glucose transporters reside in different vesicle populations and that both transporter isoforms translocate from intracellular sites to the plasma membrane in response to insulin. The insulin-regulatable transporter resides in a unique vesicle that comprises 3% or less of the low density microsomes of fat cells and has a limited protein composition that does not include the bulk of another translocatable protein, the insulin-like growth factor II receptor. Immunoprecipitation with 1F8 of microsomal glucose transporters photoaffinity labeled with [3H]cytochalasin B brings down 90% of the label. Similarly, immunoprecipitation with 1F8 of glucose transporters from insulin-stimulated plasma membranes photolabeled with 3-[125I]iodo-4-azidophenethylamido-7-O-succinyldeacetyl-f ors kolin, another transporter-selective reagent, results in 75% of the labeled transporter localized in the immunoprecipitate. Thus, insulin action involves the combined effect of translocation from at least two vesicle pools each containing different glucose transporters. The 1F8-reactive transporter comprises the majority of the total transporter pool that is responsible for the insulin-induced increase in glucose transporter number.
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PMID:Insulin-regulated glucose uptake in rat adipocytes is mediated by two transporter isoforms present in at least two vesicle populations. 254 7

This study was designed to investigate whether the genetic predisposition to insulin-dependent diabetes mellitus (IDDM) might be caused by an inherited increased sensitivity of the pancreatic B-cells to immune effector molecules e.g. the monokine interleukin 1 (IL-1), which is selectively cytotoxic to B-cells in vitro. Islets of Langerhans isolated from newborn diabetes prone and diabetes resistant Bio-Breeding rats, as well as from the inbred non-diabetic rat strains Wistar Furth, Brown-Norway and Lewis-Scripps were exposed to 0-1000 ng/l [corrected] of recombinant human IL-1 beta for 7 days. Strain-related differences in the sensitivity to IL-1 were studied by comparing the dose-responses of insulin release at 11 mmol/l glucose and islet light microscopic morphology to varying concentrations of IL-1. Statistical analyses showed a significant impact of strain on B-cell sensitivity to IL-1, Brown-Norway islets being relatively resistant to the action of IL-1. However, the the diabetes prone islets were not more sensitive to the cytotoxic effect of IL-1 than the non-diabetic control strain islets. We conclude that genetic differences in the response to IL-1 exist in vitro, but that this phenomenon is unrelated to the propensity to develop IDDM.
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PMID:Genetically determined differences in newborn rat islet sensitivity to interleukin-1 in vitro: no association with the diabetes prone phenotype in the BB-rat. 264 51


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