Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Multiple cytokines induce a number of alterations in lipid metabolism which can produce hyperlipidemia. Recent studies have demonstrated that tumor necrosis factor (TNF) increases lipolysis, resulting in an increase in circulating FFA levels, which stimulates hepatic triglyceride production, thereby contributing to the hyperlipidemia induced by TNF. In the present investigation we have determined the effects of a variety of cytokines on lipolysis in cultured 3T3-F442A adipocytes. TNF increased lipolysis approximately 3-fold with a maximal effect at 100 ng/ml and a half-maximal increase at 5-10 ng/ml. This increase was first observed 8 h after incubation with TNF. Interleukin-1 (IL-1) and interferon-alpha (IFN), -beta, and -gamma also stimulated lipolysis in cultured adipocytes. The half-maximal increase in lipolysis occurred at approximately 10 ng/ml IL-1, 5 ng/ml IFN alpha, 10 ng/ml IFN beta, and 8 ng/ml of IFN gamma. Maximal lipolysis was observed at approximately 100 ng/ml for each of these cytokines, with the exception of IFN beta, for which maximal stimulation was observed at 1000 ng/ml. Neither platelet-activating factor nor IL-6 stimulated lipolysis; therefore, it is unlikely that these compounds mediate the increase in lipolysis induced by cytokines. However, indomethacin, a well known inhibitor of prostaglandin synthesis, prevented the increase in lipolysis induced by TNF, IL-1, IFN alpha, IFN beta, or IFN gamma. Indomethacin did not affect basal lipolysis or the acute stimulation of lipolysis induced by epinephrine. These results demonstrate that multiple cytokines can increase lipolysis and that this increase is mediated by cytokine-induced stimulation of prostaglandin synthesis.
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PMID:Stimulation of lipolysis in cultured fat cells by tumor necrosis factor, interleukin-1, and the interferons is blocked by inhibition of prostaglandin synthesis. 137 Jan 49

Based on our new finding that an inflammation in which tumor necrosis factor (TNF) is primed or triggered (ontogenic inflammation) can regulate the homeostasis in ontogenesis, we have identified a new lipopolysaccharide from wheat flour (LPSw) that can induce ontogenic inflammation in adult mice. LPSw can prime adult mice to produce TNF when given orally or percutaneously, suggesting that it may maintain homeostasis in adults. LPSw can cure experimental animals of diabetes, hyperlipidemia, ulcer, and herpes. It can also stimulate bone resorption and egg-laying, and shows a strong analgesic effect that is blocked by naloxone. This effect even allows a release from drug addiction. Suppression of serum cholesterol level by oral uptake of LPSw in Watanabe heritable hyperlipidemic (WHHL) rabbit was also observed. Infection of toxoplasma was prevented by oral uptake of LPSw. The realization that a single oral or percutaneous administration of LPSw may be a cure for multiple intractable diseases may lead to the presentation of a nontoxic type of Coley's toxin, which is known to be an efficient cancer treatment, but has high toxicity.
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PMID:Oral or percutaneous administration of lipopolysaccharide of small molecular size may cure various intractable diseases: a new version of Coley's toxin. 147 70

Hyperlipidemia frequently accompanies infectious diseases and may be due to increases in lipoprotein production or decreases in lipoprotein clearance. The administration of endotoxin (LPS) has been used to mimic infection and prior studies demonstrate that LPS produces hypertriglyceridemia. In the present study in rodents, the dose of LPS necessary to induce hyperlipidemia was orders of magnitude less than that necessary to induce shock and death. As little as 10 ng/100 g body weight induced hypertriglyceridemia and this increase in serum triglyceride levels occurred rapidly (78% increase at 2 h). At high doses of LPS (50 micrograms/100 g body weight), the clearance of triglyceride-rich lipoproteins was decreased. At low doses of LPS (100 ng/100 g body weight), triglyceride clearance was not altered but the hepatic secretion of triglyceride was increased. Low dose LPS stimulated hepatic de novo fatty acid synthesis and lipolysis, both of which provided a source of fatty acids for the increase in hepatic triglyceride production. High dose LPS did not increase hepatic fatty acid synthesis or peripheral lipolysis, and hepatic triglyceride secretion was not stimulated. Thus, low dose LPS produces hypertriglyceridemia by increasing hepatic lipoprotein production, while high dose LPS produces hypertriglyceridemia by decreasing lipoprotein catabolism. Administration of anti-tumor necrosis factor (TNF) antibodies or interleukin 1 (IL-1) receptor antagonist did not prevent the increase in serum triglyceride levels induced by LPS. However, anti-TNF antibodies and interleukin 1 receptor antagonist (IL-1ra) blocked the increase in serum triglycerides induced by TNF or IL-1, respectively. These data suggest that neither of these cytokines is absolutely required for the increase in serum triglycerides induced by LPS, raising the possibility that other cytokines, small molecular mediators, or LPS itself may play a crucial role.
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PMID:Endotoxin rapidly induces changes in lipid metabolism that produce hypertriglyceridemia: low doses stimulate hepatic triglyceride production while high doses inhibit clearance. 147 86

Low doses (0.1-0.3 micrograms/ml per 10(6) cells) of the lipopolysaccharide toxin (LPS) from Salmonella typhimurium were shown to increase (after an 18 h incubation) the intracellular content of free cholesterol (CH), esterified cholesterol (EC) and triglycerides (TG) by 30-40% in the primary culture of rabbit hepatocytes. A similar increase was found for the incorporation of [14C]acetate into these lipids. The concentration of lipids in cultural medium, under these conditions, was also augmented: by 30-40% for CH; by 50-60% for TG and by 60-80% for EC. Higher doses (up to 50 micrograms/ml) of LPS hardly affected the lipid content in hepatocytes but strongly (by two-fold) inhibited the secretion of lipids. It is suggested that in vivo low concentrations of LPS in bloodstream (in the absence of conspicuous pathology) might induce hyperlipidemia directly influencing on hepatic cells, while, under the higher concentrations of LPS, hyperlipidemia caused by cachectin (or tumor necrosis factor) is probably observed.
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PMID:Lipopolysaccharide toxin can directly stimulate the intracellular accumulation of lipids and their secretion into medium in the primary culture of rabbit hepatocytes. 268 May 97

Previous studies have shown that tumor necrosis factor (TNF) administration acutely increases serum triglyceride levels and stimulates hepatic de novo fatty acid synthesis. We now demonstrate that 60-90 min after TNF administration the incorporation of glycerol into triglycerides in the liver is increased 57% in chow-fed rats. Additionally, the quantity of labeled lipid in serum is increased 96% in the TNF-treated animals. TNF also acutely increases hepatic lipid synthesis and the quantity of labeled lipids in serum in rats fed a high sucrose diet. Moreover, using the Triton WR-1339 method, from 1-2 h after TNF administration there is a 52% increase in total hepatic triglyceride secretion. In contrast, in animals fasted before TNF administration, the characteristic increase in serum triglyceride levels is not observed, and neither the incorporation of glycerol into hepatic lipids nor the quantity of labeled lipids in the circulation are increased. By 17 h after TNF administration the incorporation of glycerol into hepatic lipid and the quantity of labeled lipid in the serum are no longer increased. These results indicate that in addition to TNF acutely stimulating de novo fatty acid synthesis, TNF also acutely stimulates hepatic triglyceride synthesis. The increase in hepatic triglyceride synthesis leads to increased secretion of lipids into the circulation. These observations provide strong support for our hypothesis that a TNF-induced stimulation of hepatic lipid synthesis and secretion contributes to the TNF-induced hyperlipidemia.
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PMID:Tumor necrosis factor stimulates hepatic lipid synthesis and secretion. 270 58

The administration of a single injection of tumor necrosis factor (TNF) produces a variety of acute and sustained biological effects, including hyperlipidemia, stimulation of hepatic lipogenesis, decreases in adipose tissue lipoprotein lipase activity, and anorexia with weight loss. Chronic administration of a fixed dose of TNF produces tachyphylaxis to the anorectic/cachectic effects of TNF. We now report that the hyperlipidemic effect of TNF persists during chronic TNF administration in the absence of any cachectic effect of TNF. Sprague-Dawley rats injected with TNF (250 micrograms/kg) show a significant decrease in weight over the next 24 h which can be accounted for by decreases in food and water intake accompanied by an increase in urine output. With subsequent daily injections of TNF, treated rats begin eating and rapidly regain weight. Hypertriglyceridemia persists for up to 10 days of daily injections of TNF. After three daily injections of TNF, no decreases were seen in lipoprotein lipase activity in a wide variety of tissues. De novo hepatic lipogenesis remained increased in TNF-treated animals after four daily injections, but by the fifth day hepatic lipogenesis returned to normal. After 5 days of TNF treatment the acute incorporation of labeled glycerol into serum triglycerides remained elevated. These data indicate that hyperlipidemia persists during multiple daily injections of TNF and that TNF induced hypertriglyceridemia is not inevitably linked to the syndrome of cachexia.
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PMID:Persistence of the hypertriglyceridemic effect of tumor necrosis factor despite development of tachyphylaxis to its anorectic/cachectic effects in rats. 271 42

The presence of cachectin or tumor necrosis factor (TNF) associated with hypertriglyceridemia was demonstrated in the serum of patients with pulmonary tuberculosis. The hyperlipidemia that accompanies this infection may be mediated by the TNF inhibition of lipoprotein lipase activity. This sequence of events may be sufficient to explain, in part, the complex metabolic changes and emaciation observed in tuberculosis patients.
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PMID:The role of cachectin/TNF in the pathogenesis of tuberculosis. 314 96

The hyperlipidemia accompanying infection has been attributed to production of tumor necrosis factor. This cytokine inhibits adipose tissue lipoprotein lipase, which could decrease clearance of lipoproteins. Infections also increase hepatic lipogenesis. We now have demonstrated that tumor necrosis factor-alpha stimulates lipid synthesis in vivo. 2 h after administration of tumor necrosis factor (25 micrograms/200 g), plasma triglycerides increase 2.2-fold and remain elevated for 17 h. Plasma cholesterol also increases, but this effect appears after 7 h. Tumor necrosis factor rapidly stimulates incorporation of tritiated water into fatty acids in the liver (1-2 h), which persists for 17 h. Also, tumor necrosis factor stimulates hepatic sterol synthesis. Of note, tumor necrosis factor treatment does not stimulate lipid synthesis in other tissues, including adipose tissue. Labeled fatty acids rapidly increase in the plasma, raising the possibility that stimulation of hepatic lipogenesis by tumor necrosis factor contributes to the hyperlipidemia of infection.
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PMID:Tumor necrosis factor-alpha stimulates hepatic lipogenesis in the rat in vivo. 359 72

Cytokines induce a number of changes in lipid metabolism that can produce hyperlipidemia. Leukemia inhibitory factor (LIF), a recently discovered cytokine, has been suggested to play a role in the cancer cachexia syndrome through its ability to decrease lipoprotein lipase (LPL) activity. This study explores the mechanism by which LIP decreases LPL activity in cultured adipocytes and determines its effects on fatty acid synthesis and lipolysis to see if it shares the same catabolic effects on fat cells as seen with other cytokines, such as tumor necrosis factor (TNF). LIF decreased LPL activity in cultured adipocytes by 44% compared with an 85% decrease produced by TNF. Although the percent decrease in LPL activity is not as great in LIF-incubated adipocytes as in TNF-incubated adipocytes, the half-maximal doses for both cytokines are similar. LPL messenger RNA levels paralleled LPL activity in the LIF-treated adipocytes, suggesting that the effect of LIF on LPL activity is predominantly mediated through transcriptional regulation. In contrast to TNF, LIF tended to increase the de novo synthesis of fatty acids. Acetyl coenzyme-A carboxylase messenger RNA levels paralleled the changes seen in fatty acid synthesis for both cytokines. LIF caused a small increase in lipolysis, whereas TNF increased lipolysis by greater than 2-fold. These results demonstrate that the catabolic effects of LIF are weaker than those of TNF and are predominantly directed toward decreasing LPL activity, which may contribute to the hyperlipidemia associated with infection, inflammation, and cancer.
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PMID:Leukemia inhibitory factor induces changes in lipid metabolism in cultured adipocytes. 801 46

Hyperlipidemia is prominent among the disturbances in intermediary metabolism that occur subsequent to infections by microorganisms. The response to such infections is known to involve several cell types and is mediated by cytokines. We hypothesized that metabolic lipid disturbances seen during infection in cystic fibrosis (CF) patients may partly be the result of excessive tumor necrosis factor-alpha (TNF-alpha), a proinflammatory cytokine known to cause a large spectrum of pathophysiologic alterations, including impaired lipid metabolism. Therefore, we determined the circulating concentration of TNF-alpha and analyzed its relationship to lipid and lipoprotein levels, as well as lipoprotein lipase activity, in 31 CF patients. Plasma TNF-alpha values were significantly (p < 0.01) elevated in patients with CF compared with controls. The CF subjects were found to have decreased plasma cholesterol (25%), LDL cholesterol (35%), and HDL cholesterol (19%) concentrations, whereas plasma triglycerides were significantly increased (p < 0.001). The apo A-I level was reduced (p < 0.005), whereas apo B levels were normal. Low levels of the major essential fatty acids were found in the plasma of the CF patients, and the triene/tetraene ratio confirmed their essential fatty acid deficiency. Postheparin lipolytic activity was lower in CF patients than in controls, and the decreased activity was accounted for primarily by a decline in hepatic lipase. A significant positive correlation (p < 0.001, r = 0.70) was found between TNF-alpha and plasma triglyceride levels. However, no association was noted between TNF-alpha and essential fatty acid, cholesterol, or lipoprotein cholesterol levels, or with lipoprotein lipase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Circulating tumor necrosis factor-alpha levels and lipid abnormalities in patients with cystic fibrosis. 823 19


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