Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0235394 (wasting)
8,040 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The concept of a neuro-endocrine-immune axis was proposed more than 50 years ago. Growth hormone (GH), a central component of this axis has many functions at both a molecular and cellular level, including thymocyte proliferation, stimulation of the cytotoxic activity of natural killer cells and induction of lymphocyte proliferation. Binding of GH to its receptors on lymphocytes stimulates the production of insulin-like growth factor I (IGF-I), which mediates the effects of GH on cell proliferation. Other effects of GH on the immune system appear to be direct, such as priming monocytes for enhanced production of hydrogen peroxide in response to phorbol esters, and stimulating neutrophils to secrete superoxide anions associated with enhanced phagocytic activity. Many of the effects of GH are shared by IGF-I. Despite these observations, and the fact that GH is produced and secreted in immunological tissues such as the thymus and spleen, immune deficiency is not characteristic of GH deficiency in humans. The question remains as to whether GH and IGF-I could be used as immunotherapy. Currently, both agents have been used in adults to diminish wasting due to acquired immunodeficiency syndrome, and GH has been shown to stimulate CD8+ cell counts. However, they had little impact on CD4+ cell counts, which may be due to IGF-I and GH resistance in these individuals. The use of GH and IGF-I as immunotherapies merits further study.
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PMID:Effects of growth hormone and insulin-like growth factor I on T- and B-lymphocytes and immune function. 940 46

It is unknown whether hypogonadism contributes to decreased insulin-like growth factor I (IGF-I) production and/or how testosterone administration may effect the GH-IGF-I axis in human immunodeficiency virus (HIV)-infected men with the acquired immunodeficiency syndrome (AIDS) wasting syndrome (AWS). In this study, we investigate the GH-IGF-I axis in men with the AWS and determine the effects of testosterone on GH secretory dynamics, pulse characteristics determined from overnight frequent sampling, arginine stimulation, and total and free IGF-I levels. Baseline GH-IGF-I parameters in hypogonadal men with AWS (n=51) were compared before testosterone administration (300 mg, im, every 3 weeks vs. placebo for 6 months) with cross-sectional data obtained in two age-matched control groups: eugonadal men with AIDS wasting (n=10) and healthy age-matched normal men (n=15). The changes in GH-IGF-I parameters were then compared prospectively in testosterone- and placebo-treated patients. Mean overnight GH levels [1.8+/-0.3 and 2.4+/-0.3 vs. 0.90+/-0.1 microg/L (P=0.04 and P=0.003 vs. healthy controls)] and pulse frequency [0.35+/-0.06 and 0.37+/-0.02 vs. 0.22+/-0.03 pulses/h (P=0.06 and P=0.002 vs. healthy controls)] were comparably elevated in the eugonadal and hypogonadal HIV-positive groups, respectively, compared to those in the healthy control group. No significant differences in pulse amplitude, interpulse interval, or maximal GH stimulation to arginine administration (0.5 g/kg, i.v.) were seen between either the eugonadal and hypogonadal HIV-positive or healthy control patients. In contrast, IGF-I levels were comparably decreased in both HIV-positive groups compared to the healthy control group [143+/-16 and 165+/-14 vs. 216+/-14 microg/L (P=0.004 and P=0.02 vs. healthy controls)]. At baseline, before treatment with testosterone, overnight GH levels were inversely correlated with IGF-I (r=-0.42; P=0.003), percent ideal body weight (r=-0.36; P=0.012), albumin (r=-0.37; P=0.012), and fat mass (r=-0.52; P=0.0002), whereas IGF-I levels correlated with free testosterone (r=0.35; P=0.011) and caloric intake (r=0.32; P= 0.023) in the hypogonadal HIV-positive men. In a stepwise regression model, albumin (P=0.003) and testosterone (P=0.011) were the only significant predictors of GH [mean GH (microg/L)=-1.82 x albumin (g/dL) + 0.003 x total testosterone (microg/L) + 6.5], accounting for 49% of the variation in GH. Mean overnight GH levels decreased significantly in the testosterone-treated patients compared to those in the placebo-treated hypogonadal patients (0.9+/-0.3 vs. 0.2+/-0.4 microg/L; P=0.020). In contrast, no differences in IGF-I or free IGF-I were observed in response to testosterone administration. The decrement in mean overnight GH in response to testosterone treatment was inversely associated with increased fat-free mass (r=-0.49; P= 0.024), which was the only significant variable in a stepwise regression model for change in GH [change in mean GH (microg/L)=-0.197 x kg fat-free mass - 0.53] and accounted for 27% of the variation in the change in GH. In this study, we demonstrate increased basal GH secretion and pulse frequency in association with reduced IGF-I concentrations, consistent with GH resistance, among both hypogonadal and eugonadal men with AIDS wasting. Testosterone administration decreases GH in hypogonadal men with AIDS wasting. The change in GH is best predicted by and is inversely related to the magnitude of the change in lean body mass in response to testosterone administration. These data demonstrate that among hypogonadal men with the AWS, testosterone administration has a significant effect on the GH axis.
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PMID:Effects of androgen administration on the growth hormone-insulin-like growth factor I axis in men with acquired immunodeficiency syndrome wasting. 985 59

Primary human skeletal muscle cell cultures derived from muscles of a myotonic dystrophy (DM) fetus provided a model in which both resistance to insulin action described in DM patient muscles and the potential ability of insulin-like growth factor I (IGF-I) to circumvent this defect could be investigated. Basal glucose uptake was the same in cultured DM cells as in normal myotubes. In DM cells, a dose of 10 nM insulin produced no stimulatory effect on glucose uptake, and at higher concentrations, stimulation of glucose uptake remained significantly lower than that in normal myotubes. In addition, basal and insulin-mediated protein synthesis were both significantly reduced compared with those in normal cells. In DM myotubes, insulin receptor messenger RNA expression and insulin receptor binding were significantly diminished, whereas the expression of GLUT1 and GLUT4 glucose transporters was not affected. These results indicate that impaired insulin action is retained in DM cultured myotubes. The action of recombinant human IGF-I (rhIGF-I) was evaluated in this cellular model. We showed that rhIGF-I is able to stimulate glucose uptake to a similar extent as in control cells and restore normal protein synthesis level in DM myotubes. Thus, rhIGF-I is able to bypass impaired insulin action in DM myotubes. This provides a solid foundation for the eventual use of rhIGF-I as an effective treatment of muscle weakness and wasting in DM.
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PMID:Insulin-like growth factor I circumvents defective insulin action in human myotonic dystrophy skeletal muscle cells. 1046 98

Wasting of skeletal muscle protein is a prominent feature of the metabolic response to sepsis. Persistent protein wasting leads to muscle dysfunction and prolongs recovery from the septic insult. Unfortunately, conventional nutritional support alone does not prevent the sepsis-induced weight loss and catabolism of muscle. Hence, mechanisms other than substrate deficiency appear to be involved in the derangements in protein metabolism during sepsis. The catabolism of muscle during sepsis results from a stimulation of proteolysis and an inhibition of protein synthesis. Despite the importance of these pathways in maintaining muscle mass, the regulation of protein synthesis and proteolysis during sepsis remains poorly understood. This review summarizes the mechanisms responsible for alterations in protein synthesis and degradation in muscle during sepsis at the biochemical level. The ability of hormones (insulin, insulin-like growth factor I, glucocorticoids) or cytokines (tumor necrosis factor, interleukin-1) to act as mediators or modulators of protein catabolism is also examined. A picture is emerging suggesting that cytokines may influence skeletal muscle protein metabolism during sepsis both indirectly, through inhibition of the regulatory actions of anabolic hormones on protein turnover, and directly, through modulation of the protein synthesis and degradation enzymatic machinery.
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PMID:Regulation of skeletal muscle protein turnover during sepsis. 1056 51

Body wasting and loss of lean body mass (LBM) have been associated with increased mortality and disease progression, and reduced quality of life, in patients with human immunodeficiency virus (HIV) infection. The failure of nutritional therapies and, more recently, of effective viral suppression, to consistently restore LBM has prompted investigation of the pharmacologic use of a number of specific protein anabolic agents, including recombinant human growth hormone (rhGH), insulin-like growth factor I (rhIGF-I), and synthetic testosterone derivatives, such as nandrolone decanoate, oxandrolone, and oxymetholone. In a placebo-controlled trial, treatment with rhGH resulted in a significant and sustained increase in weight that was accompanied by an even greater increase in LBM and a decrease in fat, and improvement in treadmill work output. Preliminary data suggest that short-term rhGH treatment may be effective in mitigating weight loss in patients with secondary infections. Open-label studies of nandrolone decanoate suggest that this injectable agent also can increase weight and LBM. Two oral agents, oxandrolone and oxymetholone, can increase weight, but their effects on LBM in placebo-controlled trials have not been reported. Taken together, these studies demonstrate that HIV-infected individuals can regain weight and LBM under the proper therapeutic circumstances. The effects of reversal of wasting on survival and disease progression, long-term safety, and the potential value of these therapies in the treatment of fat redistribution remain to be determined.
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PMID:Use of growth hormone and other anabolic agents in AIDS wasting. 1057 56

Patients with the virilizing forms of congenital adrenal hyperplasia (CAH) need a life-long glucocorticoid replacement therapy and also an additional mineralocorticoid replacement in cases with the salt-wasting form of the disease. Glucocorticoids are reported to decrease the serum osteocalcin levels and to inhibit the effects of insulin-like growth factor I (IGF-I). To collect data on the age related patterns of osteocalcin and IGF-I production in patients with CAH, measurements of these compounds have been carried out in a considerably large sample of treated CAH patients and control subjects in childhood and adolescence. Data of 62 patients between 0. 3-19 years of age were compared to the data of 188 control children. Osteocalcin and IGF-I were determined by radioimmunoassay. A lower than normal level of serum osteocalcin was found in both male and female patients at chronological ages above 11.6 and 9.6 years, respectively. Furthermore, no pubertal osteocalcin peak could be seen when data were evaluated according to the bone age. Serum IGF-I levels were higher in male CAH patients at the chronological age of 0.3-15.5 years and in female patients at the chronological age of 4. 6-9.5 years. In pubertal years serum IGF-I concentrations were lower in CAH patients when data were evaluated according to the bone age. We conclude that serum osteocalcin is decreased during and after puberty in CAH patients on replacement doses of glucocorticoids. Normal to elevated serum levels of IGF-I in treated CAH cases suggest that the shorter final height of these patients may not be due to the decreased activity in the growth hormoneIGF-I axis, but rather to the advanced bone maturation and the premature epiphyseal fusion.
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PMID:Serum osteocalcin and insulin-like growth factor I levels in children with congenital adrenal hyperplasia. 1072 77

Resistance to growth hormone (GH)-mediated induction of insulin-like growth factor I (IGF-I) is a common complication of catabolic diseases, including critical illness and post-surgical conditions. This resistance to GH is believed to be permissive to the development of protein catabolism, cachexia and wasting, which are associated with an increased mortality rate. Data from in vitro studies and animal models suggest that increased levels of inflammatory cytokines can induce cachexia and might inhibit the effects of GH on target tissues. The molecular mechanisms involved are unclear, although an effect of cytokines on GH receptor signalling has been suggested. The GH-activated pathways that mediate the increase in IGF-I levels are not well understood, thereby impeding the elucidation of the effect of inflammatory cytokines. Several signalling cascades, like the JAK-STAT and MAP kinase pathways, have been shown to be activated by GH and some inflammatory cytokines, hence raising the possibility of crosstalk on this level. Our data, however, indicate that inflammatory cytokines have little or no effect on GH-mediated JAK-STAT signalling. In this review, we discuss these results and the possibility that secondary changes in the structure of chromatin are likely to be involved in the induction of IGF-I gene transcription by GH.
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PMID:Inflammatory cytokines and acquired growth hormone resistance. 1098 47

The body's protein mass not only provides architectural support for cells but also serves vital roles in maintaining their function and survival. The whole body protein pool, as well as that of individual tissues, is determined by the balance between the processes of protein synthesis and degradation. These in turn are regulated by interactions among hormonal, nutritional, neural, inflammatory, and other influences. Prolonged changes in either the synthetic or degradative processes (or both) that cause protein wasting increase morbidity and mortality. The application of tracer kinetic methods, combined with measurements of the activity of components of the cellular signaling pathways involved in protein synthesis and degradation, affords new insights into the regulation of both protein synthesis and breakdown in vivo. These insights, including those from studies of insulin, insulin-like growth factor I, growth hormone, and amino acid-mediated regulation of muscle and whole body protein turnover, provide opportunities to develop and test therapeutic approaches with promise to minimize or prevent these adverse health consequences.
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PMID:Human protein metabolism: its measurement and regulation. 1242

It has been previously reported that insulin-like growth factor I (IGF I) decreases in AIDS patients with wasting, a condition that is partially prevented by combined IGF I growth hormone therapy. By generating bifunctional proteins of IGF I and stromal cell-derived factor 1alpha (SDF-1alpha) or alpha1 proteinase inhibitor (API), two proteins known to prevent HIV infection, it may be possible to improve the therapeutic effectiveness of these compounds for the treatment of AIDS-mediated wasting. SDF-1alpha or the M351E-M358L mutant of API were attached at the C-terminal end of IGF I and synthesized by a stable insect cell expression technique. The IGF I-SDF-1alpha chimera reduced the enhancement of thymidine incorporation into bovine fetal erythroid cells observed in the presence of insect cell produced IGF I alone. It also decreased the SDF-1 and IGF I-stimulated hematopoietic cell migration, without losing the capacity to compete with the binding of HIV-1 (IIIB)-surface glycoprotein gp120. The IGF I-API chimera displayed the same mitogenic activity and a similar, but lower chemotactic activity than IGF I in the assays mentioned above. It had a comparable anti-elastase activity to that observed with a previously described IGF II-API fusion protein with the single mutation M351E. The binding of gp120 to a murine hematopoietic cell line was stimulated by human neutrophil elastase (25-100 nM) and inhibited by IGF I-API. In conclusion, the linkage of IGF I with SDF-1 or API can alter some biological functions of the single components of the chimera while keeping their ability to compete with HIV-1-gp120 binding.
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PMID:The fusion of IGF I with stromal cell-derived factor I or alpha1 proteinase inhibitor alters their mitogenic or chemotactic activities while keeping their ability to inhibit HIV-1-gp120 binding. 1278 86

Children with cholestatic liver diseases, in particular biliary atresia, may develop an acquired growth hormone (GH) resistance. This is characterized by normal GH secretion, reduced liver GH receptor (GHR) abundance, and reduced circulating insulin-like growth factor I (IGF-I). Consequences include linear growth failure, reduced muscle mass, and increased perioperative morbidity and mortality. However, the molecular basis for altered GH signaling in liver and skeletal muscle in cholestatic liver disease is not known. We hypothesized that reduced IGF-I expression in obstructive cholestasis would be associated with downregulation of the GHR and impaired phosphorylation of signal transducers and activators of transcription (STAT5). Body composition was determined in C57BL/6J male mice after bile duct ligation (BDL) relative to pair-fed (PF) and ad libitum-fed controls. GHR, STAT5, Sp3, and IGF-I expression and/or DNA binding were assessed using immunoblots, electrophoretic mobility shift assays, and/or real time RT-PCR. Fat-free mass was reduced in PF mice relative to ad libitum-fed controls. BDL led to a further reduction in fat mass and fat-free mass relative to PF controls. TNF-alpha was increased in liver and skeletal muscle of BDL mice. This was associated with reduced GH-dependent STAT5 activation and IGF-I RNA expression. GHR expression was reduced in BDL mice; in liver, this was associated with reduced Sp3 binding to a GHR gene promoter cis element. Wasting in murine obstructive cholestasis is due to combined effects of reduced caloric intake and biliary obstruction. GH resistance due to downregulation of GHR expression may be attributed primarily to the obstructive cholestasis; therapies that specifically increase GHR expression may restore GH signaling in this setting.
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PMID:Alterations in growth hormone receptor abundance regulate growth hormone signaling in murine obstructive cholestasis. 1560 2


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