Carbohydrate metabolism, cellular

There are data from animal studies in mice, rats, and pigs that indicate that both carbohydrate metabolism and lipid metabolism may be affected by exposure to heptachlor or heptachlor epoxide (Enan et al. 1982 Halacka et al. 1974 Kacew and Singhal 1973 Pelikan 1971). Alterations in gluconeogenic enzymes and an increase in cellular steatosis in the liver have been reported. Granulomas and fibrotic liver have also been observed. In addition, hepatocellular carcinoma was identified as causally related to heptachlor in the diet in a mouse study conducted by the National Cancer Institute (NCI 1977). The existing evidence suggests that heptachlor and heptachlor epoxide are hepatic toxicants. 

Another evolving subdiscipline is interaction proteomics. Protein-protein interactions are a key element of almost all cellular processes. These interactions underlie the events of cell-cycle regulation, cellular architecture, intracellular signal transduction, nucleic acid metabolism, lipid metabolism, and carbohydrate metabolism. A rigorous... 

In vivo measurements of lipopolysaccharide synthesis in E. coli B have indicated that two nanomoles of KDO must be synthesized per minute per mg of protein in order to meet the cellular requirement for LPS synthesis under the normal conditions of growth on glucose-minimal medium (27). We have measured the specific activities of the enzymes involved in KDO synthesis in crude extracts of E. coli B including those enzymes responsible for the synthesis of D-ribulose-5-phosphate, the precursor of D-arabinose-5-phosphate. D-Ribulose-5-phosphate is a key intermediate in carbohydrate metabolism as shown in Figure 2, since it is the direct precursor of both D-ribose-5-phosphate and D-arabinose-5-phosphate... 

Metabolic Effects. Thyroid hormones affect energy substrate utilization in a number of ways. For instance, these hormones increase intestinal glucose absorption and increase the activity of several enzymes involved in carbohydrate metabolism. Thyroid hormones enhance lipolysis by increasing the response of fat cells to other lipolytic hormones. In general, these and other metabolic effects help to increase the availability of glucose and lipids for increased cellular activity. 

Other strategies include detailed studies of the changes in brain carbohydrate metabolism in ageing and how this may differ in patients with Alzheimer s disease. Changes in the composition and biophysical properties of neuronal membranes may also be of crucial importance in regulating the cytosolic free calcium, which could affect cellular homeostasis. 

In a starved patient, the secretion of insulin is decreased in response to the low carbohydrate intake. Catabolised fats and protein are used for energy. This results in an intracellu+llar loss of electrolytes, in particular phosphates. When the patient starts to feed, a sudden shift from fat to carbohydrate metabolism occurs and secretion of insulin increases. This stimulates cellular uptake of magnesium, phosphate and potassium, which can lead to hypophosphataemia,... 

Cyanide is described as a cellular toxin because it inhibits aerobic metabolism. It reversibly binds with ferric (Fe " ") iron-containing cytochrome oxidase and inhibits the last step of mitochondrial oxidative phosphorylation. This inhibition halts carbohydrate metabolism from citric acid cycle, and intracellular concentrations of adenosine triphosphate are rapidly depleted. When absorbed in high enough doses, respiratory arrest quickly ensues, which is probably caused by respiratory muscle failure. Cardiac arrest and death inevitably follow. 

The average K+ content of the human body is 40 mEq/kg. K+ occurs mainly in intracellular space. It is required for carbohydrate metabolism, and increased cellular uptake of K+ occurs during glucose catabolism. K" " is widely distributed in plant and animal foods, the human requirement being about 4 g/day. Insulin and catecholamines promote a shift of K+ into the cells. Excess K+ is excreted in the urine, a process regulated by aldosterone. 

An insulin infusion should be considered for severe cases of calcium channel blocker toxicity." Case reports suggest that an intravenous bolus of regular insulin (0.5-1 units/kg) with 50 mL dextrose 50% (0.25 mg/kg for children) followed with a continuous infusion of regular insulin (0.5-1 units/kg per hour) may improve myocardial contractility. The effect of insulin is presently unclear, but it may improve myocardial metabolism that is adversely affected by calcium channel blocker overdoses, such as decreased cellular uptake of glucose and free fatty acids and a shift from fatty acid oxidation to carbohydrate metabolism. This insulin regimen is titrated to improvement in systolic blood pressure over 100 mm Hg and heart rate... 

PPI is a major dass of eukaryotic Ser/Thr-specific protein phosphatases that regulate diverse cellular processes such as cell cycle progression, muscle contraction, carbohydrate metabolism, protein synthesis, transcription, and neuronal signaling. Its action is modulated and regulated by assodation with subunits induding various inhibitor proteins and multiple targeting subunits of which nearly 30 proteins have now been identified (review Aggen et al., 2000). The activity of the inhibitory proteins can be controlled via phosphorylation by protein kinase A as outlined in Fig. 7.16. 

The critical role of carbohydrate recognition in cellular functioning has impelled aggressive research directed toward the understanding and control of the intermolecular processes involved in carbohydrate metabolism and signaling. Modified saccharide structures incorporating /V-thiocarbonyl... 

Thiamin transporter Carbohydrate metabolism is the primary energy source in coc-cidia. Inhibition of the cellular transport of thiamin by the structurally similar agent ampro-lium leads to a deficiency of this cofactor in coccidia. 

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