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Gluconeogenesis by isolated hepatocytes resulted in glucose release but insignificant rates of glycogen synthesis. The effectiveness of precursors was similar for hepatocytes from fed and starved chickens except for impaired gluconeogenesis from pyruvate when compared to lactate in lactate starved chicken hepatocytes. The impairment was caused by limitations in cytosolic NADH production as a result of the mitochondrial location of phosphoenolpyruvate carboxykinase in chicken liver. The order of effectiveness of precursors on hepatic gluconeogenesis was generally similar to the effects of precursors on increasing the plasma glucose concentration in vivo. The exceptions were caused by interactions with other precursors in vivo. The alteration of the NADH/NAD+ ratio by ethanol and ATP/ADP ratio by adenosine could play significant roles in the control of precursor conversion to glucose. Physiological glucagon concentrations stimulated gluconeogenesis from precursors entering the pathway both above and below the level of triose phosphates, and its effect were mimicked by dibutyryl cyclic AMP. Previous results on the effects of precursor and glucagon injection on the plasma glucose concentration of chickens in vivo can largely be explained by effects at the hepatic level. Isolated chicken and rat hepatocytes share many common features. Qualitatively the ordering of gluconeogenic effectiveness was similar but quantitive differences existed as a result of differing activities and cellular locations of enzymes. Neither preparation readily synthesised glycogen and the sensitivity to glucagon was similar.
Mol Cell Biochem 1978 Dec 22
PMID:Hepatic gluconeogenesis in chickens. 74 98

The role of protein synthesis in the control of phosphoenolpyruvate carboxykinase (PEPCK; 4.1.1.32) mRNA turnover was studied in FTO-2B rat hepatoma cells. A previous study demonstrated that incubation of these cells with cAMP prolongs the half-life of the otherwise short-lived PEPCK mRNA. The decay rate of PEPCK mRNA was also slowed in cells incubated with cycloheximide, but not in cells incubated with other translation inhibitors, such as puromycin or pactamycin, even though protein synthesis was inhibited 85-95% by these agents. No correlation was noted between the rate of L-[3H]valine incorporation into cellular proteins and PEPCK mRNA half-life, suggesting that protein synthesis per se is not required for breakdown of the mRNA. Exposure of cells to the translation initiation inhibitor pactamycin together with cycloheximide abolished the "slowing" effect of cycloheximide, and PEPCK mRNA decayed at the same rate as in cells incubated in the presence of pactamycin alone. In contrast, pactamycin did not reverse the effect of cAMP, and the mRNA decayed at the same slow rate in cells incubated in the presence of either (Bu)2cAMP alone or (Bu)2cAMP together with pactamycin. Since pactamycin promotes polysomes dissociation, these results suggest that cAMP enhances the stability of a polysome-free PEPCK mRNA. Furthermore, these results strongly indicate that neither the rapid decay of PEPCK mRNA nor the cAMP-mediated stabilization of the mRNA requires on-going protein synthesis.
Mol Endocrinol 1992 Sep
PMID:The role of protein synthesis in the decay of phosphoenolpyruvate carboxykinase messenger RNA. 133 75

The accessory factor 1 (AF1) element is an upstream transcriptional control region that plays a role in the response of the phosphoenolpyruvate carboxykinase (PEPCK) gene to both glucocorticoids and retinoic acid. We demonstrate here that retinoic acid receptor alpha (RAR alpha) binds to a sequence within the AF1 element, TGACCT (site B), that is a consensus retinoic acid response element (RARE) half-site. A similar DNA sequence, TGGCCG (site C), located 1 bp downstream of site B, is not involved in the binding of RAR alpha monomers or dimers but is required for the constitution of a functional RARE. Site C is also required for the formation of a complex involving RAR alpha and a liver nuclear factor designated CR, for coregulator. Mutational analysis of the AF1 element shows that the RAR alpha/CR complex is the trans-acting unit that mediates the retinoic acid response of the PEPCK gene. Another member of the retinoid receptor family, retinoid X receptor alpha (RXR alpha), can also form a complex with RAR alpha and the AF1 element. Several observations, including the observation that RXR alpha antibody interacts with CR, indicate that RXR alpha and CR are identical or closely related proteins. Through RXR alpha forms a complex with RAR alpha and the AF1 element, we demonstrate that the AF1 element is functionally distinguishable from a retinoid X response element. Taken together, our results show that the AF1 element contains an RARE that mediates a retinoic acid response by binding an RAR alpha/coregulator complex; this coregulator is presumably RXR alpha.
Mol Cell Biol 1992 Dec
PMID:Activation of the phosphoenolpyruvate carboxykinase gene retinoic acid response element is dependent on a retinoic acid receptor/coregulator complex. 133 43

The phosphoenolpyruvate carboxykinase (PEPCK) gene is highly expressed in cultured rat hepatoma cells, but extinguished in hepatoma x fibroblast hybrids. Extinction of PEPCK gene expression in hybrids is a polygenic process that involves several fibroblast loci, only one of which (tissue-specific extinguisher-1, TSE1) has been characterized to date. To identify sequence elements of the PEPCK gene that are involved both in TSE1-mediated extinction and in TSE1-independent processes, we assayed expression of chimeric PEPCK transgenes in transiently and stably transfected hybrid cells. We report that TSE1 responsiveness mapped to the PEPCK CRE (cAMP response element), as shown previously for the tyrosine aminotransferase gene. This was expected from the recent identification of the TSE1 gene product as a regulatory subunit of protein kinase A. However, none of the transgenes we assayed were responsive to TSE1-independent extinction mechanisms, suggesting that these controls require DNA sequences and/or chromatin structures that were not present in the transfected reporters. The implications of these findings are discussed.
Somat Cell Mol Genet 1992 Nov
PMID:Multiple elements regulate phosphoenolpyruvate carboxykinase gene expression in hepatoma hybrid cells. 133 26

The common ice plant, Mesembryanthemum crystallinum, shifts from C3 to crassulacean acid metabolism (CAM) photosynthesis in response to osmotic stress. The expression of a number of genes encoding enzymes involved in the CAM pathway increases as a result of increased transcription rates. To begin to investigate the mechanisms responsible for the transcriptional activation, we have characterized the 5' control region of a specific isoform of phosphoenolpyruvate carboxylase gene (Ppc1) that plays a key role in CAM. We have determined the nucleotide sequence of the 5' flanking region of this gene. Ppc1 contains a long 5'-leader sequence with the transcriptional start site located 332/333 nucleotides 5' of the translational initiation codon. Multiple DNA interactions with nuclear factors are detectable within the 5'-flanking region of Ppc1. We have used copper orthophenanthroline footprinting to demonstrate that one particularly abundant factor (designated PCAT-1) binds the Ppc1 promoter at two distinct A/T-rich sites located -128 to -158 and -187 to -205 bp upstream of the transcriptional start site. These binding sites share a loose consensus motif having the sequence AARTAAC(T/A)A(G/T)TTTY. Gel retardation competition experiments with oligonucleotides containing these A/T-rich binding sites suggest that both sites bind the same factor, but with different affinities. Fractionation of crude nuclear extracts by heparin-agarose chromatography indicates that PCAT-1 is more prevalent in extracts prepared from salt-stressed leaf tissue. Additional binding activities that interact with the PCAT-1 binding sites have been detected that either increase or decrease in abundance or binding affinity in response to salt stress.
Plant Mol Biol 1992 Nov
PMID:Salt stress alters A/T-rich DNA-binding factor interactions within the phosphoenolpyruvate carboxylase promoter from Mesembryanthemum crystallinum. 142 Nov 45

Phytomonas sp. isolated from Euphorbia characias was adapted to SDM-79 medium. Cells isolated in the early stationary phase of growth were analyzed for their capacity to utilize plant carbohydrates for their energy requirements. The cellulose-degrading enzymes amylase, amylomaltase, invertase, carboxymethylcellulase, and the pectin-degrading enzymes polygalacturonase and oligo-D-galactosiduronate lyase were present in Phytomonas sp. and were all, except for amylomaltase, excreted into the external medium. Glucose, fructose and mannose served as the major energy substrates. Catabolism of carbohydrates occurred mainly via aerobic glycolysis according to the Embden-Meyerhof pathway, of which all the enzymes were detected. Likewise, the end-products of glycolysis, acetate and pyruvate, glycerol, succinate and ethanol were detected in the culture medium, as were the enzymes responsible for their production. Mitochondria were incapable of oxidizing succinate, 2-oxoglutarate, pyruvate, malate and proline, but had a high capacity to oxidize glycerol 3-phosphate. This oxidation was completely inhibited by salicylhydroxamic acid. No cytochromes could be detected either in intact mitochondria or in sub-mitochondrial particles. Mitochondrial respiration was not inhibited by antimycin, azide or cyanide. The glycolytic enzymes, from hexokinase to phosphoglycerate kinase, and the enzymes glycerol kinase, glycerol-3-phosphate dehydrogenase, phosphoenolpyruvate carboxykinase, malate dehydrogenase and adenylate kinase, were all associated with glycosomes that had a buoyant density of about 1.24 g cm-1 in sucrose. Cytochemical staining revealed the presence of catalase in these organelles. The cytosolic enzyme pyruvate kinase was activated by fructose 2,6-bisphosphate, typical of all other pyruvate kinases from Kinetoplastida. The energy metabolism of the plant parasite Phytomonas sp. isolated from E. characias resembled that of the bloodstream form of the mammalian parasite Trypanosoma brucei.
Mol Biochem Parasitol 1992 Sep
PMID:Characterization of carbohydrate metabolism and demonstration of glycosomes in a Phytomonas sp. isolated from Euphorbia characias. 143 59

A gene (SCPEPCD1) encoding phosphoenolpyruvate carboxylase (PEPC) was isolated from the C-4 monocot sugarcane (Saccharum hybrid var. H32-8560). SCPEPCD1 is ca. 6800 bp long, with 10 exons. The entire gene sequence from -1561 to 262 bp downstream of the putative poly(A) addition signal is reported. A low-level, essentially constitutive pattern of expression, amino acid sequence similarities to other 'housekeeping' PEPC enzymes, and the absence of DNA sequence elements conserved in the upstream region of maize and sorghum C-4-specific PEPC genes indicate that SCPEPCD1 encodes a housekeeping PEPC. Despite this, a motif proposed to act as a phosphorylation site in light-mediated activation of photosynthetic PEPC enzymes [10] is present in the SCPEPCD1 protein; evidence is presented for the presence of this site in other housekeeping PEPC proteins.
Plant Mol Biol 1992 Nov
PMID:Structure and expression of a sugarcane gene encoding a housekeeping phosphoenolpyruvate carboxylase. 145 Mar 81

A full-length cDNA encoding a subunit of phosphoenolpyruvate carboxylase (PEPC) was isolated from a developing seed expression library of the C3 plant Glycine max. The corresponding mRNA is present at similar levels in leaf, stem, root and developing seed. Two potential start codons exist, and the activity of protein initiated from the first such codon could be subject to regulation by protein kinase. Sequence comparison shows a similar upstream start codon in the case of the Ppc2 gene from Mesembryanthemum crystallinum, previously assumed to lack the sequences necessary for phosphorylation. The soybean encoded protein tends to resemble other 'C3-type' PEPC proteins more closely than those implicated in C4 or crassulacean acid metabolism.
Plant Mol Biol 1992 Nov
PMID:cDNA sequence and expression of a phosphoenolpyruvate carboxylase gene from soybean. 145 Mar 89

It has been widely believed that bloodstream forms of Trypanosoma brucei must be first transformed into intermediary and/or short-stumpy forms in the bloodstream of the mammalian host before differentiation to the procyclic culture form can occur. In our recent studies, the pleomorphic T. brucei strain TREU667 was found to differentiate directly from the long-slender bloodstream form to the procyclic form in Cunningham's medium at 26 degrees C [7]. In the present investigation, the same was found true for another pleomorphic strain of T. brucei, STIB366D. Four independent monomorphic strains of T. brucei were tested; two, #427 and EATRO164, were found capable of differentiating in vitro directly into procyclic forms, whereas the other two, TREU667/RP-56 and EATRO110, could not. There is thus no correlation between the capability of differentiating in vitro and the ability of being converted from long-slender to intermediary and short-stumpy bloodstream forms. Two additional markers for following differentiation, other than observing morphological changes, were tested. Assays for the emerging phosphoenolpyruvate carboxykinase (PEPCK) by immunoblottings worked well, with results agreeing closely with the morphological change. But immunoblottings of glycosomal phosphoglycerate kinase (gPGK) failed to demonstrate a significant decrease in the protein level upon completion of differentiation. Apparently, gPGK has a rather long half-life and is unsuitable as a marker of differentiation. When temperature was dropped from 37 degrees C to 26 degrees C at the starting point of in vitro differentiation, protein synthetic activity in the pleomorphic T. brucei TREU667 bloodstream form was decreased by 4-fold. When the activity was gradually brought back to and beyond the original level after a day's incubation, the profile of newly synthesized proteins was that of the procyclic form. A monomorphic variant of TREU667, RP-56, which is incapable of differentiating in vitro, has a much higher protein synthetic activity than its pleomorphic parent in the bloodstream form. This high activity and the bloodstream profile of proteins thus synthesized were unaffected by the decreased temperature in Cunningham's medium until cell death. We thus conclude that a general inhibition of protein synthesis in bloodstream forms caused by temperature drop may be among the early events triggering differentiation into the procyclic form.
Mol Biochem Parasitol 1992 Nov
PMID:Transient inhibition of protein synthesis accompanies differentiation of Trypanosoma brucei from bloodstream to procyclic forms. 147 91

Schistosoma mansoni miracidia in water are known to possess an aerobic energy metabolism, the Krebs cycle being the main terminal of the breakdown of endogenous glycogen reserves. The present study demonstrated that after in vitro transformation of miracidia into sporocysts, the organisms degraded glucose to lactate and carbon dioxide in a more anaerobic ratio than do miracidia. The occurrence of a large Pasteur effect demonstrated, however, that oxidative phosphorylation was still the major process used for energy generation. After 24 h in vitro cultivation the sporocysts had consumed more external glucose and their metabolism had shifted towards lactate production. Sporocysts could cope with inhibited respiration: they had a large anaerobic capacity and survived perfectly in the presence of cyanide, producing a large amount of succinate in addition to lactate. It was demonstrated that this succinate was largely produced via phosphoenolpyruvate carboxykinase (PEPCK). This pathway, which is known to occur in most parasitic helminths, has never been demonstrated in schistosomes, not even in the miracidial stage immediately preceding the sporocysts. It was also shown that in sporocysts part of the lactate was not formed directly by glycolysis, but via a detour including fumarate and the action of PEPCK. The results demonstrated that S. mansoni sporocysts are facultative anaerobes, fully equipped to adjust their energy metabolism to the variable conditions inside their intermediate host, the snail. In the presence of oxygen, they derive most of their energy from the aerobic degradation of glucose to carbon dioxide, but under anaerobic conditions they switch towards lactate and succinate production.
Mol Biochem Parasitol 1992 Nov
PMID:The facultative anaerobic energy metabolism of Schistosoma mansoni sporocysts. 147 1

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