Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.1.49 (phosphoenolpyruvate carboxykinase)
 4,654 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

LLC-PK1 cells, derived from pig kidney, retain several properties of the proximal tubule, but are incapable of gluconeogenesis, due to the lack of fructose-1,6-bisphosphatase (FBPase) [Am. J. Physiol. 248 (Cell Physiol. 17): C181-185, 1985]. Cells incapable of gluconeogenesis require a hexose, pentose, or nucleoside to provide ribose-5-phosphate for RNA biosynthesis. To induce or select cells that express FBPase activity, we cultured LLC-PK1 cells in glucose-free medium. We obtained cells (designated LLC-PK1-FBPase+) that express FBPase activity and are capable of growing in the complete absence of sugars or nucleosides. The cells have apical membrane enzyme activities that differ from those of wildtype cells. Tests of metabolic flow through the gluconeogenic pathway, using 3-mercaptopicolinic acid, a specific inhibitor of phosphoenolpyruvate carboxykinase, confirmed that the cells are gluconeogenic. LLC-PK1-FBPase+ cells grown in medium containing 5 mM glucose for five weekly passages continued to express FBPase activity and apical membrane enzyme activities characteristic of the FBPase+ strain. When switched back to glucose-free medium, they proliferated well. The strain appears to be stable. It should provide a model for studying the relationship between gluconeogenesis and other proximal tubule functions. An incidental finding is that in both strains, the activity of lactate dehydrogenase varied directly with the concentration of glucose in the growth medium, indicating that the expression of lactate dehydrogenase may be regulated by glucose or a metabolite of glucose.
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PMID:Isolation, growth, and characterization of a gluconeogenic strain of renal cells. 303 Jan 22

Washed whole chloroplasts of Spinacia oleracea isolated and assayed in a tris (hydroxymethyl aminomethane)-HCl buffered sucrose solution exhibited low dark CO(2) fixing activity, whereas washed whole chloroplasts isolated in the same buffer but assayed in that buffer without sucrose exhibited much greater dark CO(2) fixing activity. The lowered activity could be attributed to the impermeability of the chloroplast membrane to ribose-5-phosphate or adenosine triphosphate. The preservation of the integrity of the chloroplast membrane, as reflected by its impermeability to either or both of the abovementioned compounds, was measured by the fixation of (14)CO(2) into acid-stable products in the presence of ribose-5-phosphate and adenosine triphosphate by the whole chloroplast as compared with fixation by the chloroplast extract. An effect (i.e., apparent resistance to the passage of ribose-5-phosphate or adenosine-5-triphosphate into the chloroplast) similar to, but less pronounced than, that produced by the presence of sucrose in the isolation medium was observed upon the addition of MnCl(2) or CaCl(2) to the buffered sucrose isolation medium. The addition of KCl enhanced slightly the effect produced by addition of sucrose alone to the isolation medium. The presence of MgCl(2) in the isolation medium, however, either caused the chloroplasts to become leaky or more fragile since more of the activity of the carboxylative phase enzymes appeared in the cytoplasm. When a mixture of all of the metal ions was added to the buffered sucrose suspending medium, the chloroplasts exhibited the same response observed with MgCl(2) alone. The addition of ethylene diaminetetraacetate or dithiothreitol appeared to alter the permeability of the chloroplast membrane nonspecifically when the assay was conducted in the absence of sucrose. Specific activities (mumoles CO(2) fixed/mg chlorophyll x hr) as high as 329.6 have been observed for dark fixation by chloroplasts. The phosphoenolpyruvate carboxylase activity in the chloroplasts was only one-seventh that of ribulose diphosphate carboxylase. The phosphoenolpyruvate carboxylase activity in the cytoplasm was 5 times that of the chloroplasts.
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PMID:Chloroplast Integrity and ATP-Dependent CO(2) Fixation in Spinacia oleracea. 1665 58