Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cancer and its therapies frequently produce anorexia and cachexia. In this study, the acute (3 days) and chronic (4 wks) nutrition-related effects of cancer therapy with recombinant human tumor necrosis factor (rHuTNF) were investigated and described. Nutritional status, as measured by body weight and body composition (body fat and lean-to-fat ratio) with use of bioelectrical impedance, did not appear to deteriorate. None of the serum lipids changed significantly, but triglycerides did rise modestly over four weeks of therapy. Glucose and the peptide hormones (insulin, C-peptide, glucagon, and pancreatic polypeptide) thought to affect appetite did not change with rHuTNF therapy. Therefore, although TNF is thought to contribute to wasting in animal models, it had no negative effect on nutritional status in our small sample. The lack of adverse effect noted in this study is possibly due to the low dose level of rHuTNF or to adaptation.
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PMID:Lack of significant changes in nutrition-related parameters with tumor necrosis factor treatment of cancer. 834 74

We previously established pluripotent transformed rat islet cell lines, MSL-cells, of which certain clones have been used to study processes of islet beta-cell maturation, including the transcriptional activation of the insulin gene induced by in vivo passage. Thus, successive sc transplantation in NEDH rats resulted in stable hypoglycemic insulinoma tumor lines, such as MSL-G2-IN. Occasionally, hypoglycemia as well as severe weight loss were observed in the early tumor passages of MSL-G and the subclone, NHI-5B, which carry the transfected neomycin and human insulin genes as unique clonal markers. By selective transplantation, it was possible to segregate stable anorectic normoglycemic tumor lines, MSL-G-AN and NHI-5B-AN, from both clones. These tumors cause an abrupt onset of anorexia when they reach a size of 400-500 mg (< 0.3% of total body weight), and the observed weight loss parallels that of starved rats until death results from cachexia. After tumor resection, animals immediately resume normal feeding behavior. Comparative studies of hormone release and mRNA content in anorectic lines, MSL-G-AN and NHI-5B-AN, vs. those in the insulinoma line, MSL-G2-IN, revealed selective glucagon gene expression in both of the anorectic tumors, whereas insulin and islet amyloid polypeptide gene expression were confined to the insulinoma. Both tumor phenotypes produced cholecystokinin and gastrin in variable small amounts, making it unlikely that these hormones contribute to the anorectic phenotype. Tumor necrosis factor (cachectin) was not produced by any of the tumors. Proglucagon was processed as in the fetal islet to products representative of both pancreatic alpha-cell and intestinal L-cell phenotypes, with glucagon and Glp-1 (7-36)amide as the major extractable products. In contrast to the administration of cholecystokinin, neither glucagon, Glp-1 (7-36)amide, nor their combination, affected feeding behavior in fasted mice, suggesting the presence of a hitherto unidentified anorectic substance released from the glucagonoma. We conclude 1) that glucagonomas and insulinomas can be derived from a common clonal origin of pluripotent MSL cells, thus supporting the existence of a cell lineage relationship between islet alpha- and beta-cell during ontogeny; and 2) that our glucagonomas release an anorexigenic substance(s) of unknown nature that causes a severe weight loss comparable to that reported in animals carrying tumor necrosis factor-producing experimental tumors.
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PMID:The dissociation of tumor-induced weight loss from hypoglycemia in a transplantable pluripotent rat islet tumor results in the segregation of stable alpha- and beta-cell tumor phenotypes. 840 49

Increased hepatic glucose production and glucose utilization involving multiple tissues occur in response to administration of bacterial lipopolysaccharide (LPS) and are metabolic hallmarks of hypermetabolic sepsis. As a proximal mediator in the host response to infection-like challenges, tumor necrosis factor (TNF) may enhance glucose metabolism by directly interacting with cells or by initiating a cascade of events leading to changes in glucose production and utilization. To determine if endogenous TNF is an important mediator in LPS- or sepsis-induced changes in glucose metabolism, rats were pretreated with a neutralizing goat anti-TNF IgG antibody prior to intravenous LPS or subcutaneous live Escherichia coli administration. Whereas high levels of plasma TNF were observed in rats not pretreated with anti-TNF, TNF was not detected 90 min after LPS in rats receiving the antibody. Pretreatment with anti-TNF attenuated the increase in plasma lactate and glucagon levels in LPS-challenged rats but failed to ameliorate the LPS-induced hyperglycemia and increase in glucose rate of appearance (Ra). The LPS-stimulated increase of in vivo glucose metabolic rate (Rg) of examined tissues, measured with [14C]-2-deoxyglucose, was not altered by anti-TNF. Likewise, rats treated with anti-TNF prior to induction of hypermetabolic infection exhibited usual increases in whole-body glucose Ra and metabolic clearance rate. Although neutralizing TNF failed to prevent the sepsis-induced augmentation of Rg in any tissue examined, it reduced the increase in the lung (P < 0.05) and tended to decrease it in other barrier tissues as well as in the spleen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of glucose metabolism after endotoxin and during infection is largely independent of endogenous tumor necrosis factor. 845 46

This study aimed to determine the contribution of endogenous opiates to the hormonal and glucose metabolic response to lipopolysaccharide (LPS). Rats were infused with naloxone (NAL) (32 micrograms/h) for 2 h prior to the injection of LPS (100 micrograms/100 g body weight) and hemodynamic, hormonal, and metabolic parameters were determined. NAL produced no detectable alterations in any of the parameters assessed. LPS transiently decreases (26%) mean arterial blood pressure (MABP) and increased plasma glucose concentration (100-130%), glucose rate of appearance (50-100%), and glucose rate of disappearance (50-100%). NAL did not alter the LPS-induced drop in mean arterial blood pressure or the glucose response to LPS. LPS reduced plasma insulin (54%), and increased glucagon (270%), corticosterone (180%), and tumor necrosis factor concentrations in plasma (peak 3200-4600 pg/mL at 90 min), with no modification by NAL pretreatment. These results suggest a lack of involvement of endogenous opiate pathways in the glucose metabolic and hormonal responses to LPS.
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PMID:Endogenous opiates do not modulate LPS-induced alterations in carbohydrate metabolism. 860 95

The immune and endocrine mediators that are released during sepsis (e.g., tumor necrosis factor [TNF] alpha, interleukin [IL]-1, IL-6, transforming growth factor [TGF] beta, prostaglandin [PG] E2, catecholamines, vasopressin, glucagon, insulin, and glucocorticoids) can produce inappropriate detrimental cellular responses contributing to exacerbation of septic injury. Examples of such sepsis-related inappropriate responses are: exaggerated hepatic acute-phase protein (APP) expression and release skeletal muscle insulin resistance, and suppressed T-lymphocyte proliferation. The studies discussed in this article present evidence that the generation of the sepsis-related hepatic, skeletal muscle, and T-lymphocyte responses emanate from alterations in intracellular Ca2+ (Ca2+i) homeostasis. In hepatocytes, there is indication of a sepsis-mediated increase in Ca2+ influx from the extracellular milieu leading to a sustained increase in the apparent resting cell Ca2+i concentration ([Ca2+]i) and its depressed elevation on stimulation with Ca2+-mobilizing hormones such as catecholamines and vasopressin. These Ca(2+)- related changes can affect not only the signaling pathways in which Ca2+i itself serves as a signaling component, but also the signaling systems turned on by other sepsis-induced agonists which may not be dependent on Ca2+ signaling. TGF-beta, IL-1, TNF alpha, and IL-6 activate a primarily protein kinase C (PKC)-dependent intracellular signal system for the elicitation of a normal hepatic APP response (APPR). The increased apparent basal [Ca2+]i in sepsis can hypersensitize PKC activation and thus lead to an exaggerated APPR. In the skeletal muscle, an evident increase in Ca2+ membrane flux during sepsis pointed to an increase in the basal [Ca2+]i resulting from a plausible cytokine-mediated overactivation of the voltage-sensitive Ca2+ channels. The increased basal [Ca2+]i can negatively modulate the insulin-mediated stimulation of GLUT4-dependent glucose transport despite the possibility that Ca2+i might not participate as a component in the insulin-receptor-regulated signaling pathway. Increased [Ca2+]i in skeletal myocytes can either directly promote the phosphorylation of GLUT4 or prevent its dephosphorylation, both of which effectively block insulin stimulation of glucose uptake, thereby contributing to insulin resistance. In T lymphocytes, septic injury appears to induce an attenuation in the mitogen and, thus, presumably a T-cell antigen receptor (TCR)-mediated elevation in [Ca2+]i without affecting the basal [Ca2+]i. This decrease in TCR-related Ca2+i mobilization evidently contributes to the suppression of T lymphocyte proliferation during sepsis, probably via an in vivo action of prostaglandin (PG) E2 on the T cells during sepsis. The blockade of PGE2 production after indomethacin administration to septic animals prevents alterations in both T-cell Ca2+i mobilization and proliferation. PGE2 probably acts through its second messenger, cyclic adenosine 3'5'-monophosphate, which can antagonize Ca2+i signaling in T cells.
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PMID:Alterations in calcium signaling and cellular responses in septic injury. 868 77

We tested the hypothesis that the metabolic changes in glucose, lipid, and protein metabolism seen during tumor necrosis factor (TNF) infusion were due to the increase in plasma glucagon concentration rather than to the direct effects of TNF. We employed a pancreatic clamp technique to keep plasma insulin and glucagon concentrations constant throughout a 4-h isotope infusion. Glucose, lipid, and protein kinetics were measured by means of the primed, constant infusion of [6,6-2H]glucose, [2H5]glycerol, [2H2]palmitic acid, and [1-13C]leucine. After a 2-h baseline period (period 1), TNF was infused as a primed, constant infusion (prime, 2.5 micrograms/kg; constant infusion, 62.5 ng.kg-1.min-1) for 2 h (period 2). Whereas plasma glucose concentration dropped significantly during TNF infusion, endogenous glucose production did not change. The decrease in glucose concentrations was due to a stimulation of glucose clearance (P < 0.05). The rate of lipolysis did not decrease significantly, but free fatty acid (FFA) flux and plasma FFA concentration significantly decreased during TNF infusion (P < 0.05). The rate of appearance of leucine was not affected by TNF infusion, but TNF caused a significant increase in 13CO2 excretion (P < 0.05) and leucine oxidation (P < 0.05). The calculated rates of whole body protein synthesis decreased. We concluded that TNF did not directly affect glucose production. Furthermore, changes in protein and lipid kinetics during TNF infusion were not mediated by changes in insulin or glucagon and may have reflected direct effects of TNF.
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PMID:TNF directly stimulates glucose uptake and leucine oxidation and inhibits FFA flux in conscious dogs. 896 76

Body composition is a reflection of the metabolic state of the organism. However, because the time course of change in body composition is slower than that of metabolic processes, measurement of body composition offers a unique way of assessing the organism's physiologic status. The hormonal and immune mediators that control metabolism, and thus body composition, can be divided into three categories: day-to-day regulators (insulin and glucagon), life cycle-related hormones (estrogens and androgens, growth hormone, prolactin, thyroid hormones, catecholamines, corticosteroids) and immunologic mediators (the cytokines interleukin-1, tumor necrosis factor, and interleukin-6). Although the cytokines can clearly drive metabolism and thus body composition in various illnesses, it is not yet clear whether they also play a homeostatic role in the age-related changes in body composition that we now call sarcopenia.
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PMID:Inflammatory and hormonal mediators of cachexia. 916 87

Patients with active inflammatory bowel disease are often reported to be in negative nitrogen balance. Therefore, we examined basal and amino acid stimulated urea synthesis in 11 patients with active inflammatory bowel disease and in 10 patients with non-active disease. A primed continuous infusion of an amino acid mixture was given from t = 1 h to t = 5 h; during the first and the last two hours no amino acid infusion was given. Urea nitrogen synthesis rate was quantified independently of changes in blood amino acid concentration by means of the functional hepatic nitrogen clearance, i.e. the linear slope of the regression of urea nitrogen synthesis rate on blood amino acid concentration. Basal and amino acid stimulated urea nitrogen synthesis rate as well as functional hepatic nitrogen clearance were elevated twofold in the patients with active disease. No differences between the two groups were observed as regards basal or stimulated plasma glucagon, cortisol, catecholamines and serum levels of interleukin-1 alpha, interleukin-1 beta, tumor necrosis factor-alpha and interleukin-6. The results show that liver function related to conversion of amino-nitrogen to urea is increased and may contribute to the less efficient nitrogen economy in patients with active inflammatory bowel disease.
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PMID:[Increased urea synthesis in patients with active inflammatory bowel disease]. 941 71

Adipose tissue has long been known to house the largest energy reserves in the animal body. Recent research indicates that in addition to this role, the adipocyte functions as a global regulator of energy metabolism. Adipose tissue is exquisitely sensitive to a variety of endocrine and paracrine signals, e.g. insulin, glucagon, glucocorticoids, and tumor necrosis factor (TNF), that combine to control both the secretion of other regulatory factors and the recruitment and differentiation of new adipocytes. The process of adipocyte differentiation is controlled by a cascade of transcription factors, most notably those of the C/EBP and PPAR families, which combine to regulate each other and to control the expression of adipocyte-specific genes. One such gene, i.e. the obese gene, was recently identified and found to encode a hormone, referred to as leptin, that plays a major role in the regulation of energy intake and expenditure. The hormonal and transcriptional control of adipocyte differentiation is discussed, as is the role of leptin and other factors secreted by the adipocyte that participate in the regulation of adipose homeostasis.
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PMID:Adipocyte differentiation and leptin expression. 944 74

The body's general response to serious thermal injury is characterized by increased vascular permeability immediately after injury and subsequent hypovolemic shock. Skeleto-muscular proteolysis, lipolysis, gluconeogenesis, increased metabolic rate, and a severe systemic inflammatory response induced by local infections or surgical procedures. The increased vascular permeability is mediated by histamine and numerous vasoactive substances, including serotonin, bradykinin, prostaglandins, leukotrienes, and platelet activating factor. Hyper-metabolism is mediated by hormones such as catecholamines, glucagon, and particularly cortisol. In addition, among the putative mediators of the metabolic response to injury, attention has recently been focused on cytokines and lipid mediators which are mainly produced by activated reticuloendothelial cells. Cytokines such as interleukin-1, interleukin-6 and tumor necrosis factor and cortisol responses are interrelated, since cytokines activate the hypothalamo-adrenal axis. The cytokine storm seen in burn patients may be associated with depression of the immune system and with susceptibility to infection. Thermal injury can also lead to activation of the renin-angiotensin-aldosterone system, increased ADH production, and production of atrial natriuretic polypeptide to maintain the circulatory volume. Burn wound infections or surgical procedures can produce and perpetuate a mediator-induced systemic inflammatory response that may lead to multiple organ failure. Serum levels of interleukin-6 are very sensitive to surgical stress, and may be a useful indicator of the general condition of severely burned patients.
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PMID:[Pathophysiologic changes in patients with severe burns: role of hormones and chemical mediators]. 954 40


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