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:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sepsis is associated with a decrease in the intrinsic gluconeogenic capacity of hepatocytes. The mechanism underlying this depression is unknown. This study sought to investigate whether decreased expression of phosphoenolpyruvate carboxykinase (PEPCK), a rate limiting enzyme in hepatic gluconeogenesis, might contribute to the decreased gluconeogenesis in sepsis. Therefore, we determined the effects of sepsis on the steady-state level of PEPCK mRNA and on PEPCK activity. Further, levels of insulin and glucagon, which modulate PEPCK expression under normal conditions, were also measured. Rats were subjected to either cecal ligation and puncture, or sham operation. Twenty-four hr later, the steady-state level of PEPCK mRNA was determined by Northern Blot hybridization analysis, and PEPCK activity was measured by 14C incorporation into phosphoenolpyruvate. Insulin and glucagon levels were determined by radioimmunoassay, and the insulin/glucagon ratio calculated. The steady-state levels of PEPCK mRNA were significantly decreased in septic animals relative to sham-operated animals. The specific activity of PEPCK in sham-operated animals was 1.67 +/- 0.25 U/mg protein, compared to 0.93 +/- 0.18 U/mg protein in septic animals (P < 0.05). The insulin/glucagon ratio was lower in septic animals than in sham-operated controls. To investigate the specific effect of the insulin-glucagon ratios observed in septic and sham operated rats on hepatocytes under non-septic conditions, cultures of primary rat hepatocytes were used. These cells were incubated with levels of insulin and glucagon equivalent to those found following cecal ligation and puncture or sham operation. Hormonal conditions designed to mimic sepsis were associated with an increase in PEPCK expression.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sepsis-induced alterations in phosphoenolpyruvate carboxykinase expression: the role of insulin and glucagon. 837 31

Sepsis and endotoxin (LPS) have been demonstrated to impair insulin-mediated glucose uptake in skeletal muscle. However, the intracellular mechanism responsible for this defect is not fully defined. The purpose of the present study was to determine whether specific elements of the insulin receptor (IR) signaling pathway in skeletal muscle are altered by LPS. In vivo injection of Escherichia coli LPS resulted in a 44% reduction in whole body glucose disposal under euglycemic hyperinsulinemic conditions, which was largely accounted for by a decreased rate of glycogen synthesis. Scatchard analysis indicated that the number and affinity of the high-affinity insulin binding sites in muscle were similar between control and LPS-treated rats. Western blot analysis indicated that under basal conditions, the levels of total and phosphorylated IR, insulin receptor substrate (IRS)-1, and mitogen-activated protein (MAP) kinase were not significantly different between control and endotoxic rats. In control animals, muscle obtained 2 min after intravenous injection of a maximally stimulating dose of insulin demonstrated a marked increase in the amount of phosphorylated IR (approximately 5-fold), IRS-1 (approximately 10-fold), and MAP kinase (approximately 10-fold). Insulin-stimulated phosphorylation of IR, IRS-1, and MAP kinase was markedly diminished (approximately 75%, 90%, and 78%, respectively) in LPS-treated rats. However, there was no concomitant reduction in the total abundance of these proteins under hyperinsulinemic conditions. These data demonstrate that LPS alters multiple steps in the insulin signal transduction pathway, but not insulin binding, in skeletal muscle that may mediate the observed impairment in glucose uptake.
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PMID:Endotoxin-induced alterations in insulin-stimulated phosphorylation of insulin receptor, IRS-1, and MAP kinase in skeletal muscle. 888 80

We assessed the clinical characteristics of newly-diagnosed diabetic patients presenting to the Mulago Hospital Diabetic Clinic for the first time between 1 January 1993 and 10 August 1994. There were 252 patients: 117 men and 135 women. Mean age at onset of diabetes was 45 years (range 2-87 years) and peak incidence was at 40-49 years. Body mass index (BMI) was available in only 71 patients, of whom 53.5% (33.8% female, 19.7% male) were overweight (BMI > 25 in women, in > 27 men) and 11.3% (8.5% men, 2.8% women) were underweight (BMI < 20). Obesity was more marked in young women. Almost all patients presented with the classical symptoms of diabetes, and the majority were severely hyperglycaemic. A family history of diabetes was identified in 16%. Concurrent illnesses at diagnosis of diabetes were unusual. Sepsis was commonest (11.9%), followed by malaria (7.8%), tuberculosis (1.2%), AIDS (1.2%) and pancreatitis (0.8%). Peripheral neuropathy was present in 46.4% of patients, hypertension (BP > 150/100) in 27.3%, impotence in 22.2% of the men, proteinuria in 17.1%, ischaemic heart disease in 4.8%, foot ulcers in 4.0% and cataracts in 3.2%. Insulin was the most commonly prescribed treatment (52.8%); 31% of patients received oral hypoglycaemic agents, only 15.1% were managed on diet only, and 1.2% opted for herbal medicine.
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PMID:The presentation of newly-diagnosed diabetic patients in Uganda. 891 47

Energy substrate metabolism during stress is characterized by increased REE (resting energy expenditure), hyperglycemia, hyperlactatemia and protein catabolism. This stress-induced hypermetabolic responses are closely related to increased secretion of neurohormonal and cytokine mediators. The insulin resistance hyperglycemia has been called "stress diabetes" or "surgical diabetes". Glucose disposal has been thought to be impaired in this condition. However, glucose uptake in most tissue is non-insulin mediated. Recent studies showed glucose uptake elevated in sepsis or TNF infusion. Insulin-regulatable glucose transporter (GLUT4) is present only in muscle, heart and adipose tissues. It was demonstrated that insulin binding to membrane receptors in these tissues was intact. This hyperglycemia in stress diabetes results from a postreceptor mechanism. Stress hyperlactatemia is thought to be caused by decreased pyruvate dehydrogenase activity rather than tissue hypoperfusion. Hyperlactatemia may promote gluconeogenesis. Glucose is a essential energy substrate in some tissues such as brain, erythrocyte and leukocyte. Hyperglycemia may be viewed as a beneficial response during stress.
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PMID:[Energy substrate metabolism during stress]. 894 Jun 83

There is no doubt that acute renal failure (ARF) is associated with enhanced protein breakdown. It has been shown that protein split products can be measured in plasma samples of these patients. On the other hand, ARF frequently occurs in conditions of increased metabolic stress which leads to enhanced protein catabolism. Muscle wasting, loss of lean body weight, and a negative nitrogen balance result in malnutrition which considerably increases morbidity and mortality. Besides the accumulation of uremic toxins, several other factors are involved in the accelerated proteolysis in ARF. Metabolic acidosis appears to be one of the major catabolic factors in chronic renal failure, and probably in ARF as well. Insulin resistance, which is commonly attributed to uremia, also increases protein degradation. However, this derangement of carbohydrate metabolism is not directly accessible to therapy, in contrast to acidosis, which can be easily corrected by bicarbonate administration. There is further evidence that glucocorticoid excess contributes to the enhanced muscle proteolysis in ARF. Moreover, several studies have demonstrated that only in the presence of both glucocorticoids and acidosis could proteolysis occur. Investigation of the cellular mechanism by which muscle proteins are degraded indicates the importance of the cytosolic, soluble ATP- and ubiquitin-dependent proteolytic system. Successful treatment of various catabolic conditions with recombinant human growth hormone and insulin-like growth factor-I seems to be a promising strategy in severely catabolic patients with ARF. Anticytokine therapy appears to be another promising treatment in the course of catabolic illness due to sepsis; however, clinical application is still in its infancy.
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PMID:Protein catabolism in acute renal failure. 938 14

Gram-negative sepsis suppresses lipoprotein lipase (LPL) activity in adipose tissue which contributes, in part, to the altered clearance of triglycerides. The suppression in LPL activity occurs when plasma insulin concentrations are elevated and insulin-stimulated glucose utilization is impaired. This study was planned to evaluate whether the presence of insulin resistance was responsible for the decrease in adipose LPL activity. Adipocytes were isolated from epididymal fat pads 24 h after inducing sepsis in male Lewis rats by intravenous injection of 4 x 10(8) colonies of live Escherichia coli/100 g body wt. The decrease in heparin-releasable (HR) LPL activity in adipocytes from the septic rats was evident at the time of isolation and maintained in a 20-h culture. After overnight incubation with insulin (10(-8) M), HR LPL activity was stimulated to a greater extent in adipocytes from septic rats (298%) than in adipocytes from control rats (88%). The insulin stimulation of LPL activity during sepsis could not be attributed to insulin-like growth factor-I (IGF-I) as adipocytes from septic rats appeared to be IGF-I resistant. Insulin-treatment (10(-8) M) increased LPL synthesis 99% in adipocytes from control rats and 136% in adipocytes from septic rats. Insulin treatment also led to a 65 and 62% increase in LPL mass in adipocytes from control and septic rats, respectively. These findings indicate that the sepsis-induced decrease in adipose LPL is not due to insulin resistance with respect to LPL. The insulin stimulation of LPL activity in adipocytes from septic rats appears to be mediated by an increase in LPL synthesis.
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PMID:Insulin stimulates lipoprotein lipase activity and synthesis in adipocytes from septic rats. 944 96

Skeletal muscle catabolism is a characteristic metabolic response to sepsis. We investigated the ability of physiological insulin (2 nM) or insulin-like growth factor I (IGF-I, 10 nM) concentrations to modify protein metabolism during incubation of epitrochlearis 2, 6, or 15 days after injection of live Escherichia coli. On days 2 and 6 postinfection, skeletal muscle exhibited an exacerbated negative protein balance resulting from both an inhibition in protein synthesis (25%) and an enhanced proteolysis (90%) compared with controls. By day 15 postinfection, protein balance in infected rats was significantly improved compared with either day 2 or 6. At this time, protein synthesis was augmented and protein degradation was decreased in infected rats relative to day 6. Insulin or IGF-I stimulated protein synthesis in muscles from septic and control rats in vitro to the same extent at each time point examined. The ability of insulin or IGF-I to limit protein degradation was severely blunted 48 h after infection. On day 6 postinfection, the effect of insulin or IGF-I to inhibit proteolysis was more pronounced than on day 2. Incubation with IGF-I limited proteolysis to a greater extent than insulin on both days in infected but not control rats. By day 15, insulin diminished proteolysis to the same extent as in controls. The results suggest that injection of bacteria causes fundamental derangements in protein metabolism that persist for days after infection.
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PMID:Differential regulation of skeletal muscle protein turnover by insulin and IGF-I after bacteremia. 975 76

Feet lesions are the most important cause of diabetic's consultation in general surgery. A retrospective study was conducted in Ouagadougou National Teaching Hospital, in order to analyse epidemiology, clinic, and evolutive aspects of this affection. In the same period, 222 cases of diabetes mellitus were admitted in general surgery and internal medicine. We noticed 42 cases of feet lesions. The mean age of patients was 53 years. Anterior knowledge of diabetes has not been a factor of early consultation. Consultation mean delay was a month. In 28 cases, feet lesions were 4 or 5 Wagner grade. The role of ischemia and neuropathy have not been evaluated, but sepsis was highly determinant factor. Insulin has been used in 83.3% of cases. Amputation concerned 19 patients. Mean length of hospital stay was 16.6 days and mortality rate was 38.1%. Prevention of complications can be much more effective if it is applied as a part of global approach to diabetes mellitus management.
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PMID:[Management of the diabetic foot, apropos of 42 cases at the Ougadougou University Hospital Center]. 982 68

While realizing the difficulties with the various methods used to study hormonal control of protein metabolism, there appear to be clear effects of both rapid-acting and slower-acting hormones. Moreover, some of these hormones affect protein metabolism in a dose dependent manner. Insulin and IGF-I appear to have differing effects at lower doses, with insulin primarily inhibiting protein degradation and IGF-I stimulating protein synthesis. At higher doses, infusions of insulin and IGF-I both seem to inhibit protein degradation and stimulate protein synthesis. Epinephrine primarily inhibits protein degradation whereas growth hormone primarily increases protein synthesis. Infusion of amino acids themselves can also increase protein synthesis. Thyroid hormone excess increases protein synthesis and protein degradation, with the latter effect predominating. Sex steroids appear to increase protein synthesis. To date, most interventions studying the metabolic effects of these hormones on protein metabolism have involved varying the concentration of one hormone at a time. In the complex milieu of many pathologic states (e.g. sepsis, renal failure or even the transition from fasting to feeding) multiple hormones change simultaneously. How interactions among these factors determine the overall response of body and muscle protein remains to be defined.
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PMID:The role of insulin and other hormones in the regulation of amino acid and protein metabolism in humans. 1021 37

Insulin plays a major role in the regulation of skeletal muscle protein turnover but its mechanism of action is not fully understood, especially in vivo during catabolic states. These aspects are presently reviewed. Insulin inhibits the ATP-ubiquitin proteasome proteolytic pathway which is presumably the predominant pathway involved in the breakdown of muscle protein. Evidence of the ability of insulin to stimulate muscle protein synthesis in vivo was also presented. Many catabolic states in rats, e.g. streptozotocin diabetes, glucocorticoid excess or sepsis-induced cytokines, resulted in a decrease in insulin action on protein synthesis or degradation. The effect of catabolic factors would therefore be facilitated. In contrast, the antiproteolytic action of insulin was improved during hyperthyroidism in man and early lactation in goats. Excessive muscle protein breakdown should therefore be prevented. In other words, the anabolic hormone insulin partly controlled the 'catabolic drive'. Advances in the understanding of insulin signalling pathways and targets should provide information on the interactions between insulin action, muscle protein turnover and catabolic factors.
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PMID:Insulin action on skeletal muscle protein metabolism during catabolic states. 1022


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