UNIPROT:P05231 - FACTA Search

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Query: UNIPROT:P05231 (interleukin-6)
23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stimulation of the immune system results in a series of metabolic changes that are antagonistic toward growth. Monokines, including interleukin-1, tumor necrosis factor, and interleukin-6, are released from cells of the monocyte-macrophage lineage after recognition of immunogens. They appear to mediate homeorhetic response, which alters the partitioning of dietary nutrients away from growth and skeletal muscle accretion in favor of metabolic processes which support the immune response and disease resistance. These alterations include 1) decreased skeletal muscle accretion due to increased rates of protein degradation and decreased protein synthesis; 2) increased basal metabolic rate resulting in increased energy utilization; 3) use of dietary amino acids for gluconeogenesis and as an energy source instead of for muscle protein accretion; 4) synthesis by the liver of acute phase proteins; 5) redistribution of iron, zinc, and copper within the body due to the hepatic synthesis of metallothionein, ferritin, and ceruloplasmin; (6) impaired accretion of cartilage and bone; and 7) release of hormones such as insulin, glucagon, and corticosterone. These monokines also influence the differentiation of cells. Tumor necrosis factor suppresses the differentiation of myoblasts and adipocytes whereas the chicken monokine myelomonocytic growth factor induces the differentiation of granulocytes.
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PMID:Monokines in growth and development. 171 68

Inappropriate hepatic lipogenesis, hypertriglyceridaemia, decreased fatty acid oxidation and muscle protein wasting are common in patients with sepsis, cancer or AIDS. Given carnitine's role in the oxidation of fatty acids (FAs), we anticipated that carnitine might promote FA oxidation, thus ameliorating metabolic disturbances in lipopolysaccharide (LPS)- and methylcholanthrene-induced sarcoma models of wasting in rats. In the LPS model, rats were injected with LPS (24 mg kg-1 i.p.), and treated with carnitine (100 mg kg-1 i.p.) at -16, -8, 0 and 8 h post LPS. Rat health was observed, and plasma inflammatory cytokines and triglycerides (TG) were measured before and 3 h post LPS. In the sarcoma model, rats were implanted subcutaneously with tumour, and treated continuously with carnitine (200 mg kg-1 day-1 i.p.) via implanted osmotic pumps. Tumour burden, TG and cytokines were measured weekly for 4 weeks. Carnitine treatment significantly lowered the tumour-induced rise in TG (% rise) in the sarcoma model (700 +/- 204 vs 251 +/- 51, P < 0.03) in control and carnitine groups respectively. Levels of interleukin-1 beta (IL-1 beta), interleukin-6 (IL-6) and tumour necrosis factor-alpha (TNF-alpha) (pg ml-1) were also lowered by carnitine in both LPS (IL-1 beta: 536 +/- 65 vs 378 +/- 44: IL-6: 271 +/- 29 vs 222 +/- 32; TNF-alpha: 618 +/- 86 vs 367 +/- 54, P < or = 0.02) and sarcoma models (IL-1 beta: 423 +/- 33 vs 221 +/- 60; IL-6: 222 +/- 18 vs 139 +/- 38; TNF-alpha: 617 +/- 69 vs 280 +/- 77, P < or = 0.05) for control and carnitine groups respectively. We conclude that carnitine has a therapeutic effect on morbidity and lipid metabolism in these disease models, and that these effects could be the result of down-regulation of cytokine production and/or increased clearance of cytokines.
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PMID:Effects of L-carnitine on serum triglyceride and cytokine levels in rat models of cachexia and septic shock. 757 64

In previous studies, interleukin-1 (IL-1) or tumor necrosis factor (TNF) have been demonstrated to augment skeletal muscle protein breakdown in a manner similar to that induced by bacterial endotoxin. This response to IL-1 or TNF was elicited only after they were administered to animals for various periods, as their addition in vitro to incubated muscles from normal untreated rats was without effect. This suggested that IL-1 and TNF may augment muscle proteolysis in an indirect fashion. Serum levels of IL-1, TNF as well as interleukin-6 (IL-6) are all elevated during infection induced by bacterial endotoxin. Both IL-1 and TNF can induce the synthesis of IL-6 by a variety of cells. Because of this, in the present report, the ability of IL-6 to stimulate skeletal muscle protein breakdown was examined. Muscle protein breakdown was evaluated by measuring the release of both tyrosine and 3-methylhistidine by incubated muscles. Pretreatment of rats with IL-6 for 6 hr induced fever and increased the release of both tyrosine and 3-methylhistidine by the extensor digitorum longus muscle. However, IL-6 did not augment muscle proteolysis when muscles from normal untreated rats were incubated in the presence of the cytokine. The data suggest that the acute treatment of animals with IL-6 can augment muscle proteolysis. Whether this response is due to a direct effect of IL-6 on the myocyte or whether it is due to the production of other mediators remains unclear.
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PMID:Interleukin-6 induces skeletal muscle protein breakdown in rats. 810 69

The addition of recombinant human interleukin-6 (rIL-6) to either soleus or extensor digitorum longus (EDL) muscle preparations did not affect the rate of protein breakdown as measured by the rate of tyrosine released to the medium. In addition, the presence of the cytokine did not influence either the rate of protein synthesis or that of alpha-(methyl)-aminoisobutyric acid (MeAIB) uptake by the muscle preparations. It is concluded that IL-6 is not the mediator in activating muscle protein turnover during sepsis in the rat.
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PMID:Interleukin-6 does not activate protein breakdown in rat skeletal muscle. 812 60

Ciliary neurotrophic factor (CNTF), a member of the interleukin-6 (IL-6) superfamily, has recently been shown to induce several inflammatory responses when administered to healthy animals, including induction of fever and a hepatic acute phase protein response. In the present report, 250 micrograms.kg body wt-1.day-1 of recombinant rat CNTF or murine IL-6 were repeatedly administered to healthy mice over a 7-day period in an effort to compare biological responses. In addition to its in vivo capacity to elicit a hepatic acute phase response, administration of CNTF, but not IL-6, produced profound anorexia and lean tissue wasting in mice. In C57B1/6 mice, 7 days of CNTF administration led to a 21% loss in carcass protein content, resulting from carcass protein breakdown rates being increased 218% over freely fed controls (both P < 0.01). Protein synthesis rates in carcass protein were also increased in CNTF-treated mice compared with both freely fed animals and mice pair-fed equivalent quantities of food. In contrast, administration of equivalent quantities of murine IL-6 had no effect on food intake or body weight in mice, although IL-6 produced a similar hepatic acute phase response, as determined by increases in serum amyloid P and seromucoid fraction and increases in total hepatic protein synthesis. However, when CNTF was coincubated with extensor digitorum longus muscles from juvenile rats in vitro, rates of total muscle and myofibrillar protein degradation and muscle protein synthesis were unchanged. We conclude that CNTF can regulate in vivo both skeletal muscle remodeling as well as the distant anorexia and hepatic acute phase protein responses. In the case of skeletal muscle, these actions are both indirect and independent of the associated anorexia. These properties of CNTF are distinct from IL-6, which when administered to the mouse at these doses is neither anorexigenic nor cachexia producing.
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PMID:Ciliary neurotrophic factor is catabolic and shares with IL-6 the capacity to induce an acute phase response. 876 Feb 19

In order to elucidate the acute and chronic effects of interleukin-6 (IL-6) on muscle protein degradation, the weight of skeletal muscles and the activities of lysosomal cathepsins (B and L) in the muscles were examined in two animal models. Two intraperitoneal injections of recombinant human IL-6 into rats did neither significantly affect the cathepsin activities in the soleus and the extensor digitorum longus muscles nor the weight of these muscles. On the other hand, the gastrocnemius muscles of the IL-6 transgenic mice underwent severe atrophy accompanied by a marked increase in cathepsin activities. We conclude that IL-6 mediates muscle protein degradation with enhancing lysosomal cathepsin activity, and that these muscle reactions are mandated by chronic exposure to a high level of IL-6.
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PMID:Role of interleukin-6 in skeletal muscle protein breakdown and cathepsin activity in vivo. 888 Jan 25

Cachexia frequently occurs in the late stages of cancer, and is difficult to manage. We previously reported that interleukin-6 (IL-6) cDNA transfection into Lewis lung carcinoma (LLC-IL6) induced cachexia-like symptoms in C57BL/6 mice. This was thought to be a useful experimental model of cancer cachexia. We have examined the effects of two eicosanoids, docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), in order to evaluate whether they could relieve cachexia. LLC-IL6-bearing animals were divided into three treatment groups receiving DHA, EPA or water as the control; 80-microliter samples of these compounds (purity > 95%) were administered orally by catheter daily starting 7 days after tumor transplantation. Tumor growth curves were similar in the three groups. There were no differences in water or food intake in the three groups. However, body weight, a marker of cachexia, was significantly higher in treated mice than in the control group. Sixteen days after tumor transplantation, the mean body weight was 17.45 g (P < 0.05), 17.2 g and 16.41 g in the groups receiving DHA, EPA and water respectively. The eicosanoids did not affect serum levels of IL-6. Ubiquitination of muscle protein, a marker of proteolysis coupled to cachexia, was compared in LLC-IL6- and LLC-transplanted mice. The eicosanoids prevented the ubiquitination of approximately 180 kDa protein. These results suggest that eicosanoids may prevent the cachexia mediated by IL-6.
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PMID:Improvement by eicosanoids in cancer cachexia induced by LLC-IL6 transplantation. 895 67

During infection and injury a series of metabolic events are activated that leads to a state of negative nitrogen balance and significant loss of lean body mass. This process is characterized by marked anorexia, net whole body protein breakdown, and liver anabolism. This host response initially is beneficial to the body because it helps it to fight disease and enhance healing. However, if such imbalance is maintained for long periods, it will invariably produce significant loss of lean body mass that may lead to a series of untoward clinical events. The role of the proximate cytokines, tumor necrosis factor (TNF), interleukin-1 (IL-1), and interleukin-6 (IL-6) as well as glucocorticoids as important mediators of many pathophysiological manifestations of infection and injury has been studied extensively. However, the involvement of other mediators, at least in skeletal muscle proteolysis during sepsis has been hypothesized, because blockade of glucocorticoids, TNF, IL-1, and IL-6 reduces but does not normalize protein breakdown rates nor does the direct application of these mediators to skeletal muscle in vitro enhance proteolysis. Furthermore other studies have suggested that the lymphokine, interferon-gamma (IFN-gamma, type II interferon or immune interferon), produces fever and enhances thermogenesis, body weight loss, and skeletal muscle depletion in rodents in a manner similar to that seen with TNF and IL-1. Cytokines appear to be major components of the host metabolic response during infection and injury. However, neither all the cytokines involved nor the exact mechanisms underlying their metabolic effects are completely understood. The regulation of muscle protein synthesis and breakdown, which largely determines the development of cachexia, appears to depend on the delicate balance between a number of regulatory substances including cytokines, glucocorticoids, catecholamines, insulin, and insulin-like growth factors.
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PMID:The role of cytokines in the catabolic consequences of infection and injury. 1008 3

We tested the role of interleukin-6 (IL-6) in sepsis-induced muscle proteolysis by determining ubiquitin mRNA levels and protein breakdown rates in incubated extensor digitorum longus muscles from septic and sham-operated IL-6 knockout and wild-type mice. In addition, the effect of treatment of mice with human recombinant IL-6 on muscle protein breakdown rates was determined. Finally, protein breakdown rates were measured in myotubes treated for up to 48 h with different concentrations of IL-6. Sepsis in wild-type mice resulted in an approximately ninefold increase in plasma IL-6 levels, whereas IL-6 was not detectable in plasma of sham-operated or septic IL-6 knockout mice. Total and myofibrillar muscle protein breakdown rates were increased by approximately 30% and threefold, respectively, in septic IL-6 wild-type mice with an almost identical response noted in septic IL-6 knockout mice. Ubiquitin mRNA levels determined by dot blot analysis were increased during sepsis in muscles from both IL-6 knockout and wild-type mice, although the increase was less pronounced in IL-6 knockout than in wild-type mice. Treatment of normal mice or of cultured L6 myotubes with IL-6 did not influence protein breakdown rates. The present results suggest that IL-6 does not regulate muscle proteolysis during sepsis.
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PMID:Sepsis in mice stimulates muscle proteolysis in the absence of IL-6. 984 88

A new model of cachexia is described in which muscle protein metabolism related to the ubiquitin-proteasome pathway was investigated. Cloning of the colon-26 tumor produced a cell line, termed R-1, which induced cytokine (noninterleukin-1beta, interleukin-6 and tumor necrosis factor-alpha)-independent cachexia. Implantation of R-1 cells in mice elicited significant (20-30%) weight loss and decreased blood glucose by 70%, and adipose tissue levels declined by 95% and muscle weights decreased by 20-25%. Food intake was unaffected. The decrease in muscle weight reflected a decline in insoluble, but not soluble, muscle protein that was associated with a significant increase in net protein degradation. The rate of ubiquitin conjugation of proteins was significantly elevated in muscles of cachectic mice. Furthermore, the proteasome inhibitor lactacystin blocked the increase in protein breakdown but had no significant effect on proteolysis. Several markers of the ubiquitin-proteasome pathway, E2(14k) mRNA and E2(14k) protein and ubiquitin-protein conjugates, were not elevated. Future investigations with this new model should gain further insights into the mechanisms of cachexia and provide a background to evaluate novel and more efficacious therapies.
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PMID:A new model of cancer cachexia: contribution of the ubiquitin-proteasome pathway. 1044 30

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