UMLS:C0036690 - FACTA Search

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

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

The time course (12, 24 and 48 h) of changes in blood metabolites, and in gluconeogenesis and ketogenesis, in isolated hepatocytes from rats made septic by caecal ligation and puncture was measured. Blood glucose was not significantly different in septic rats, but lactate was increased at 12, 24 and 48 h; pyruvate and alanine were increased at 48 h. The blood ketone body concentrations were decreased at all times studied after induction of sepsis. These changes were accompanied by increased plasma insulin in the septic rats. The rate of hepatic lipogenesis in vivo was increased at 24 and 48 h. There were appreciable increases in the hepatic concentrations of alanine (200%), lactate (200%) and pyruvate (100%) as well as other intermediates in the gluconeogenic pathway. The hepatic concentrations of acetyl-CoA and ketone bodies were decreased. The rate of gluconeogenesis from added lactate, pyruvate, alanine and glutamine was depressed in isolated hepatocytes from septic rats at 24 and 48 h. The basal rate of ketogenesis or the rate from butyrate in isolated hepatocytes was not significantly altered by sepsis, whereas the rate from oleate was decreased at all time points. It is concluded that there is an impairment of the capacity for gluconeogenesis and ketogenesis in livers of septic rats. The latter may be due to decreased entry of long-chain acyl-CoA into the mitochondria for oxidation. The possibility that these changes are in part brought about by the hyperinsulinaemia associated with the sepsis is discussed.
...
PMID:Time course of changes in hepatic metabolism in response to sepsis in the rat: impairment of gluconeogenesis and ketogenesis in vitro. 329 69

To examine alterations in amino acid metabolism after trauma and sepsis, male Sprague-Dawley rats underwent no operation (control, CON), celiotomy (trauma, TRA), or cecal ligation and puncture (sepsis, CLP). After 16 hr, plasma amino acid concentrations were determined. A second group of similarly prepared animals underwent isolated liver perfusion, and net amino acid uptake or release was determined over 30 min. Sepsis significantly decreased total amino acid concentration in portal plasma (CON, 3486 +/- 156 nmole/ml; TRA, 3407 +/- 150 nmole/ml; CLP, 2738 +/- 148 nmole/ml). Glutamine concentrations were uniformly lower in portal plasma than in arterial plasma in all states. There were depressed concentrations of the branched chain amino acids (BCAA) in portal plasma after trauma but not sepsis. In the isolated liver perfusion model, a marked increase in amino acid uptake was induced by sepsis (CON, 39.9 +/- 7.9 mumol/g liver protein; TRA, 49.5 +/- 17.3 mumol/g liver protein; CLP, 124 +/- 11 mumol/g liver protein). In addition, there was significantly greater uptake of threonine, asparagine, proline, methionine, tyrosine, and arginine. Although the BCAA isoleucine and valine were taken up to a greater extent in sepsis, the overall BCAA uptake was not significantly greater in sepsis than in control (CON 6.92 +/- 2.15 mumol/g liver protein vs CLP 15.8 +/- 1.9 mumol/g liver protein). The greatest increase in uptake following sepsis was among the gluconeogenic precursor amino acids alanine, glycine, threonine, and serine (CON, 27.0 +/- 4.2 mumol/g liver protein, TRA, 38.8 +/- 8.9 mumol/g liver protein; CLP, 62.8 +/- 6.0 mumol/g liver protein).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Amino acid uptake in isolated, perfused liver: effect of trauma and sepsis. 339 92

Sepsis has been shown to decrease skeletal muscle glucose oxidation by inhibiting the pyruvate dehydrogenase activity (PDHa) and to increase proteolysis and use of branched-chain amino acids (BCAA). The effects of dichloroacetate (DCA), which reverses PDHa inhibition, were studied in skeletal muscle from a septic (S) rat model of intra-abdominal abscess (E. coli + B. fragilis) and compared to control (C) and sterile inflammatory abscess (I) animals. In one set of S, I, and C animals, DCA (1 mmol/kg) was injected intraperitoneally at 0, 30, and 60 min. Septic, but not I, rats had a twofold increase in skeletal muscle lactate concentrations over C, but no changes in pyruvate. After DCA, both lactate and pyruvate were reduced (p less than 0.001) to same level in S, I, and C. Skeletal muscle alanine was increased in S compared to I or C, but after DCA was reduced threefold in C, S, and I (p less than 0.001) suggesting that alanine synthesis may be impaired due to decreased pyruvate availability. Like alanine, skeletal muscle BCAA were increased in S compared to C, but not altered in I. Following DCA, BCAA levels in muscle from S were reduced (p less than 0.001) to values seen in C or I. Muscle phenylalanine content was significantly elevated in S (p less than 0.05) compared to C or I, but was reduced (p less than 0.05) after DCA in S but not in C or I. Decreased muscle phenylalanine associated with lowered BCAA suggests DCA may decrease septic muscle protein catabolism and/or enhance protein synthesis. Coupled with an increased PDHa and reduced lactate levels, this suggests that DCA may reverse the excess muscle catabolism and BCAA dependence of sepsis by increasing glucose and lactate oxidation and may be a useful therapeutic modality.
...
PMID:Pharmacological reversal of abnormal glucose regulation, BCAA utilization, and muscle catabolism in sepsis by dichloroacetate. 341 55

The liver plays an important role in the acute-phase response to sepsis and injury, and host survival often depends upon an adequate hepatic response. Many of the metabolic sequelae to sepsis and injury are mediated by interleukin-1. This study was undertaken to investigate the impact of interleukin-1 upon hepatic metabolism and whether this mediator acted directly upon the liver. Interleukin-1 (5 rabbit pyrogen dose units) was administered to male Fisher F344 rats (175 to 200 g), and hepatocytes were isolated at three time periods; 2 to 4, 6 to 10, and 12 to 14 hours following an intraperitoneal injection. Alanine transport, gluconeogenesis, nonsecretory protein synthesis, and oxygen consumption were measured simultaneously in freshly isolated hepatocytes. Interleukin-1 stimulated initial rates of alanine uptake over a four-minute period. Peak stimulation of gluconeogenesis occurred at six to ten hours (0.52 +/- .14 v 0.08 +/- .01 nmol alanine converted/10(6) cells/min, P less than 0.05); nonsecretory protein synthesis was significantly stimulated at 12 to 14 hours (2.1 +/- .7 v 0.7 +/- 0.1 nmol valine converted/10(6) cells/min, P less than 0.05). These enhanced metabolic processes were associated with an increased oxygen consumption, with peak oxygen utilization occurring at six to ten hours (69 +/- 2 v 25 +/- 7 nmol of oxygen consumed 10(6) cells/min, P less than 0.05). In order to examine if interleukin-1 exerted its effect directly upon the liver, hepatocytes from normal rats were incubated in vitro with this mediator for two hours. Under these experimental conditions, interleukin-1 did not reproduce the stimulatory effect obtained following in vivo administration.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Stimulatory effect of interleukin-1 upon hepatic metabolism. 348 38

Surgical management of extrahepatic cholestasis is frequently complicated by sepsis, which can be explained in part by diminished function of the reticuloendothelial system. We have explored the possibility that the metabolic response to infection may also be abnormal. Fischer 344 rats underwent either bile duct ligation (BDL) or sham operation and were studied 3 days after operation. Hepatic amino acid uptake measured in vivo by the accumulation of 14C-alpha-aminoisobutyric acid or in vitro by the rate of transport of 14C-alanine by isolated hepatocytes was unaltered in the BDL animals, while gluconeogenesis from alanine by viable hepatocytes from BDL rats was actually enhanced. However, the expected increase in hepatic amino acid uptake in response to endotoxin was diminished in the BDL animals. In addition, we observed impaired responses of the jaundiced animals to glucagon and interleukin-1, two mediators of the hepatic acute phase response to endotoxin. These data suggest that while hepatic amino acid transport is normal in the basal state, the rat with extrahepatic biliary obstruction does not respond appropriately to stress and that this defect cannot be explained solely on the basis of altered handling of endotoxin by the reticuloendothelial system.
...
PMID:Impaired metabolic response to endotoxin in obstructive jaundice. 352 8

The effect of dexamethasone sodium phosphate on visceral organ glucose metabolism was studied in order to gain further understanding of the altered glucose dynamics that occur following catabolic states. Glucose, glutamine, and alanine exchange across the gastrointestinal (GI) tract, liver, and kidneys was determined in 25 awake dogs that were catheterized on a long-term basis during a control period and after dexamethasone sodium phosphate treatment (0.44 mg/kg/day) for two (dexamethasone 2) and nine (dexamethasone 9) days. The GI tract consumed glucose in control dogs but switched to an organ of balance or slight release with dexamethasone. Simultaneously, gut glutamine consumption increased markedly, as did intestinal alanine release. Hepatic glucose production more than doubled with dexamethasone at a time when hepatic alanine uptake was greatly increased. The kidneys demonstrated glucose balance in control animals, but released glucose with dexamethasone 9. The gut and kidneys may play an important role in the altered glucose dynamics seen in patients with sepsis and other catabolic diseases.
...
PMID:Gut-liver interaction during accelerated gluconeogenesis. 383 33

The kinetic interactions among glucose, alanine, and urea metabolism were studied in both normal volunteers and in patients with sepsis by means of a primed, constant infusion of stable isotopes. In the normal volunteers, infusion of glucose at 4 mg/kg/min suppressed total glucose production, the rate of gluconeogenesis from alanine, and the production of urea, despite an increase in the rate of release and uptake of alanine. When the glucose infusion rate was increased to 8 mg/kg/min, the production of urea decreased further, even though gluconeogenesis from alanine was already suppressed by the first infusion. This additional N-sparing effect was explainable by an increase in glucose oxidation. In the patients with sepsis the basal rates of production of glucose and urea were elevated significantly. Glucose infusion (4 mg/kg/min) decreased hepatic glycogenolysis but not gluconeogenesis from alanine or urea production. At the glucose infusion rate of 8 mg/kg/min, glucose oxidation increased in the patients and urea production decreased. Thus in patients with sepsis a higher rate of glucose infusion is necessary to achieve nitrogen-sparing effects than is necessary in controls because of a lack of suppressibility of gluconeogenesis. Because of continued glucose production during glucose infusion, hyperglycemia commonly develops during glucose infusion in sepsis. However, this effect does not necessarily indicate a complete inability of the patient with sepsis to benefit nutritionally from infused glucose, as we observed no decrement in the ability to oxidize infused glucose.
...
PMID:Assessment of alanine, urea, and glucose interrelationships in normal subjects and in patients with sepsis with stable isotopic tracers. 388 29

To investigate the metabolic effects of interleukin-1 and its role as a mediator of host responses to trauma and sepsis, we injected seven healthy male subjects with etiocholanolone, an inflammatory agent that stimulates systemic responses thought to be mediated by interleukin-1. The subjects were fed a constant diet during each 4-day study and received three daily intramuscular injections of etiocholanolone, 0.10 mg/kg. Etiocholanolone injection resulted in inflammation, fever, leukocytosis, increased serum C-reactive protein, hypoferremia, and increased plasma activity of interleukin-1/lymphocyte-activating factor. Plasma concentrations of the counterregulatory hormones were normal. Protein metabolism, as reflected in nitrogen balance, 15N turnover, and forearm flux of alanine and glutamine, was unaltered. Serum glucose and insulin levels and tissue responsiveness to insulin were normal. This dissociation of acute-phase and catabolic responses may reflect the magnitude of the stimulus; higher levels of interleukin-1 may initiate catabolic responses. Alternatively, other mediators such as the counterregulatory hormones may direct the catabolic responses that occur after injury and sepsis.
...
PMID:The induction of interleukin-1 in humans and its metabolic effects. 389 42

This study set out to investigate the alteration of amino acid (AA) and protein metabolism in patients with malnutrition, sepsis, acute pancreatitis and liver diseases. The results showed that in preoperative patients with malnutrition or protein catabolism (decreased levels of plasma proteins, increased urea production rate) the postoperative complications were significantly increased. An increased postoperative infusion of branched chain AA did not improve postoperative nitrogen retention nor plasma protein syntheses in patients with colon or rectum CA. Patients with sepsis or acute pancreatitis had drastically reduced levels of total muscular free AA, mainly due to a fall in muscle glutamine. In septic patients also the hepatic levels of free AA were decreased. These changes of AA metabolism found in clinical situation were not always reflected by results found in experimental rat models (sepsis, pancreatitis, burn injury). The parenteral administration of a synthetic dipeptide containing glutamine and alanine decreased the muscular decrease of glutamine and alanine and increased the hepatic uptake of these two AA in a catabolic dog model. In critically ill patients changes in amino acid and protein metabolism lead to a protein catabolic situation. Urea production rate and muscle glutamine levels seem to be closely related to the prognosis of catabolic patients.
...
PMID:[Amino acid and protein metabolism in critically ill patients]. 393 9

The metabolic derangement of sepsis leads to changes of the plasma and muscle amino acid (AA) pattern. In this study the influence of a septic process on liver AA pattern was investigated. In seven patients with abdominal sepsis, liver AA concentrations were determined during surgery and compared with those of four patients who had undergone cholecystectomy. In sepsis lowered AA levels were found for most of the AAs. Outstanding decreases exhibited the levels of the gluconeogenetic AAs (especially threonine and alanine), the branched chain AAs, lysine, and taurine. In the patients who did not survive the septic process, the depletion of these AAs was even amplified. Slightly increased AA levels were analyzed for P-ethanolamine, cystathionine, citrulline, beta-alanine, tyrosine, and phenylalanine. The results indicate a disturbed free AA pattern of the septic liver. Despite the increased flux of gluconeogenetic AA from muscle to liver in sepsis, as reported by several authors, no accumulation of these AAs occurs in the liver.
...
PMID:Liver amino acids in sepsis. 398 19

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>