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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)
Recent studies brought adipocyte glyceroneogenesis back to the fore as an important pathway in fatty acid homeostasis and underlined the key role played by cytosolic
phosphoenolpyruvate carboxykinase
(
PEPCK-C
) in this pathway. The present review analyses the mechanisms by which a series of hormones and nutrients affect
PEPCK-C
gene transcription and glyceroneogenesis and describes evidence for disregulation of this pathway in type 2 diabetes.
...
PMID:Regulation of glyceroneogenesis and phosphoenolpyruvate carboxykinase by fatty acids, retinoic acids and thiazolidinediones: potential relevance to type 2 diabetes. 1473 73
Cytosolic
phosphoenolpyruvate carboxykinase
(
PEPCK-C
) is the key enzyme in glyceroneogenesis, an important metabolic pathway in adipocytes for reesterification of fatty acids during fasting. Dysregulation of glyceroneogenesis could play a role in the increase in plasma non-esterified fatty acids that accompanies type 2 diabetes. In rodent adipocyte transcription of the
PEPCK-C
gene is induced by thiazolidinediones (TZDs) through an element, named PCK2, in its promoter. PCK2 binds a peroxisome proliferator activated receptor gamma (PPARgamma), retinoid X receptor alpha (RXRalpha) heterodimer. We demonstrated that in cultured human subcutaneous adipose tissue explants,
PEPCK-C
specific activity and mRNA were induced by 1 microM of the TZD rosiglitazone, respectively, about twofold in 8 h and fivefold in 5 h. Using gel shift experiments, we show that this effect is likely to involve the human PCK2 (hPCK2) element, which binds a protein complex that contains PPARgamma and RXRalpha. We analyzed hPCK2 (position -1031 to -1015 base pairs) and nearby sequences in the
PEPCK-C
promoter in 403 subjects with type 2 diabetes and 123 non-diabetic controls. The sequence of hPCK2 was not polymorphic, but we detected two C/T single nucleotide polymorphisms (SNPs), in complete linkage disequilibrium, at positions -1097 and -967 bp. Allele and genotype frequencies were not significantly different in patients and controls. However, our results suggest co-dominant effects of C and T-alleles on fasting plasma glucose and glycosylated hemoglobin A1c levels in obese type 2 diabetic patients.
...
PMID:Expression of phosphoenolpyruvate carboxykinase gene in human adipose tissue: induction by rosiglitazone and genetic analyses of the adipocyte-specific region of the promoter in type 2 diabetes. 1473 78
Elevated concentration of plasma non-esterified fatty acids (NEFA) is now recognized as a key factor in the onset of insulin-resistance and type 2 diabetes mellitus. During fasting, circulating NEFAs arise from white adipose tissue (WAT) as a consequence of lipolysis from stored triacylglycerols. However, a significant part of these FAs (30-70%) is re-esterified within the adipocyte, so that a recycling occurs and net FA output is much less than << true >> lipolysis. Indeed, a balance between two antagonistic processes, lipolysis and FA re-esterification, controls the rate of net FA release from WAT. During fasting, re-esterification requires glyceroneogenesis defined as the de novo synthesis of glycerol-3-P from pyruvate, lactate or certain amino acids. The key enzyme in this process is the cytosolic isoform of
phosphoenolpyruvate carboxykinase
(
PEPCK-C
; EC 4.1.1.32). Recent advance has stressed the role of glyceroneogenesis and of
PEPCK-C
in FA release from WAT. Results indicate that glyceroneogenesis is indeed important to lipid homeostasis and that a disregulation in this pathway may have profound pathophysiological effects. The present review focuses on the regulation of glyceroneogenesis and of
PEPCK-C
gene expression and activity by FAs, retinoic acids, glucocorticoids and the hypolipidemic class of drugs, thiazolidinediones.
...
PMID:Proposed involvement of adipocyte glyceroneogenesis and phosphoenolpyruvate carboxykinase in the metabolic syndrome. 1573 33
The hepatic transcriptional regulation by glucocorticoids of the cytosolic form of
phosphoenolpyruvate carboxykinase
(
PEPCK-C
) gene is coordinated by interactions of specific transcription factors at the glucocorticoid regulatory unit (GRU). We propose an extended GRU that consists of four accessory sites, two proximal AF1 and AF2 sites and their distal counterpart dAF1 (-993) and a new site, dAF2 (-1365); together, these four sites form a palindrome. Sequencing and gel shift binding assays of hepatic nuclear proteins interacting with these sites indicated similarity of dAF1 and dAF2 sites to the GRU proximal AF1 and AF2 sites. Chromatin immunoprecipitation assays demonstrated that glucocorticoids enhanced the binding of FOXO1 and peroxisome proliferator-activated receptor-alpha to AF2 and dAF2 sites and not to dAF1 site but enhanced the binding of hepatic nuclear transcription factor-4alpha only to the dAF1 site. Insulin inhibited the binding of these factors to their respective sites but intensified the binding of phosphorylated FOXO1. Transient transfections in HepG2 human hepatoma cells showed that glucocorticoid receptor interacts with several non-steroid nuclear receptors, yielding a synergistic response of the
PEPCK-C
gene promoter to glucocorticoids. The synergistic stimulation by glucocorticoid receptor together with peroxisome proliferator-activated receptor-alpha or hepatic nuclear transcription factor-4alpha requires all four accessory sites, i.e. a mutation of each of these markedly affects the synergistic response. Mice with a targeted mutation of the dAF1 site confirmed this requirement. This mutation inhibited the full response of hepatic
PEPCK-C
gene to diabetes by reducing
PEPCK-C
mRNA level by 3.5-fold and the level of circulating glucose by 25%.
...
PMID:Glucocorticoids regulate transcription of the gene for phosphoenolpyruvate carboxykinase in the liver via an extended glucocorticoid regulatory unit. 1610 Jan 17
Immunohistochemical analysis was used to define the precise cell-specific localization of Glucose-6-phosphatase (Glc6Pase) and cytosolic form of the
phosphoenolpyruvate carboxykinase
(
PEPCK-C
) in the digestive system (liver, small intestine and pancreas) and the kidney. Co-expression of Glc6Pase and
PEPCK-C
was shown to take place in hepatocytes, in proximal tubules of the cortex kidney and at the top of the villi of the small intestine suggesting that these tissues are all able to perform complete gluconeogenesis. On the other hand, intrahepatic bile ducts, collecting tubes of the nephron and the urinary epithelium in the calices of the kidney, as well as the crypts of the small intestine, express Glc6Pase without significant levels of
PEPCK-C
. In such cases, the function of Glc6Pase could be related to the transepithelial transport of glucose characteristic of these tissues, rather than to the neoformation of glucose. Lastly,
PEPCK-C
expression in the absence of Glc6Pase was noted in both the exocrine pancreas and the endocrine islets of Langerhans. Possible roles of
PEPCK-C
in exocrine pancreas might be the provision of gluconeogenic intermediates for further conversion into glucose in the liver, whereas
PEPCK-C
would be instrumental in pyruvate cycling, which has been suggested to play a regulatory role in insulin secretion by the beta-cells of the islets.
...
PMID:Immunocytochemical localization of glucose 6-phosphatase and cytosolic phosphoenolpyruvate carboxykinase in gluconeogenic tissues reveals unsuspected metabolic zonation. 1721 24
Thirty-four multiparous Holstein cows were used in a randomized block design to evaluate the effects of feeding nonforage fiber sources (NFFS), monensin, or their combination on expression of gluconeogenic enzymes in the liver during the transition to lactation. The addition of 0 or 300 mg/d of monensin to a conventional (CONV) or NFFS prepartum diet was evaluated in a 2 x 2 factorial arrangement of treatments. The NFFS diet was formulated by replacing 30% of the forage component of the CONV diet with cottonseed hulls and soyhulls. The CONV and NFFS basal diets were fed at dry-off and continued through parturition. Monensin was fed from -28 d relative to calving (DRTC) through parturition. At calving, all cows were placed on the same diet. Liver biopsy samples obtained at -28, -14, +1, +14, and +28 DRTC were used to determine pyruvate carboxylase (PC) and cytosolic
phosphoenolpyruvate carboxykinase
(
PEPCK-C
) mRNA expression. Feeding NFFS resulted in greater (P < 0.05) prepartum DMI compared with the CONV diet. There was no effect of prepartum diets on postpartum DMI or average milk production to 56 d of lactation. Expression of PC mRNA was elevated (P < 0.05) at 1 d postpartum, but there was no effect of NFFS or monensin on PC mRNA abundance. Expression of
PEPCK-C
mRNA at calving was increased (P < 0.05) with prepartum monensin feeding. The data indicate that feeding monensin to transition cows induces hepatic
PEPCK-C
mRNA expression before calving. The increased expression of hepatic
PEPCK-C
mRNA with monensin feeding suggests a feed-forward mechanism of metabolic control in ruminants that links molecular control of gluconeogenesis with the profile of rumen fermentation end products.
...
PMID:Effect of dietary carbohydrate and monensin on expression of gluconeogenic enzymes in liver of transition dairy cows. 1729 78
Interferon gamma (IFN-gamma) was previously shown to promote fatty acid (FA) release from adipose tissue (AT). Net lipolysis is an equilibrium between triglyceride breakdown and FA re-esterification. The latter requires activated glyceroneogenesis for glycerol-3-phosphate synthesis and increased cytosolic
phosphoenolpyruvate carboxykinase
(
PEPCK-C
), the key enzyme in this pathway. We wondered whether glyceroneogenesis and
PEPCK-C
would be IFN-gamma targets. We injected mice with IFN-gamma, and exposed either AT explants and isolated adipocytes from humans and mice or 3T3-F442A adipocytes to IFN-gamma before monitoring expression of genes involved in lipid metabolism and the metabolic consequences. We show that IFN-gamma induces a large increase in FA release without affecting glycerol output and decreases [1-(14)C]-pyruvate incorporation into lipids, thus demonstrating that FA re-esterification is reduced due to diminished glyceroneogenesis. A series of mRNA encoding proteins involved in FA metabolism remained unaffected by IFN-gamma, while that of
PEPCK-C
was rapidly and drastically lowered. IFN-gamma effect opposed that of the beta-agonist isoproterenol and of 8-Br-cAMP. In IFN-gamma-treated mice,
PEPCK-C
gene expression was decreased in AT, but not in liver or kidney. Thus, IFN-gamma exerts a tissue-specific action in rodents and humans, having glyceroneogenesis and the
PEPCK-C
gene as selective targets to intensify FA release from adipocytes.
...
PMID:Acute and selective inhibition of adipocyte glyceroneogenesis and cytosolic phosphoenolpyruvate carboxykinase by interferon gamma. 1749 4
Cytosolic
phosphoenolpyruvate carboxykinase
(
PEPCK-C
) plays key roles in gluconeogenesis, glyceroneogenesis, and cataplerosis. Experiments were designed to examine the effects of endogenous lipid molecules from rat livers on the expression of
PEPCK-C
gene in primary rat hepatocytes. The lipid extracts prepared from livers of Zucker fatty, lean, and Wistar rats induced the expression levels of
PEPCK-C
transcripts. Insulin-mediated reduction of
PEPCK-C
gene expression was attenuated by the same treatment. The lipid extracts induced the relative luciferase activity of reporter gene constructs that contain a 2.2-kb 5' promoter fragment of
PEPCK-C
gene, but not the construct that contains only the 3' untranslated region (UTR) of its mRNA. The estimated half life of
PEPCK-C
transcripts in the presence of the lipid extract is the same as that in the absence of it. My results demonstrate for the first time that endogenous lipid molecules induce
PEPCK-C
gene transcription and attenuate insulin action in liver.
...
PMID:Liver lipid molecules induce PEPCK-C gene transcription and attenuate insulin action. 1767 17
The PCK1 gene (Pck1 in rodents) encodes the cytosolic isozyme of
phosphoenolpyruvate carboxykinase
(
PEPCK-C
), which is well-known for its function as a gluconeogenic enzyme in the liver and kidney. Mouse studies involving whole body and tissue-specific Pck1 knockouts as well as tissue-specific over-expression of
PEPCK-C
have resulted in type 2 diabetes as well as several surprising phenotypes including obesity, lipodystrophy, fatty liver, and death. These phenotypes arise from perturbations not only in gluconeogenesis but in two additional metabolic functions of
PEPCK-C
: (1) cataplerosis which maintains metabolic flux through the Krebs cycle by removing excess oxaloacetate, and (2) glyceroneogenesis which produces glycerol-3-phosphate as a precursor for fatty acid esterification into triglycerides.
PEPCK-C
catalyzes the conversion of oxaloacetate + GTP to phosphoenolpyruvate + GDP + CO2. It is in part the tissue-specificity of this simple reaction that results in the variety of phenotypes listed above. Briefly: (1) A 7-fold over-expression of
PEPCK-C
in the livers of mice causes excessive glucose production. (2) Mice with a whole-body knockout of Pck1 die within 2-3 days of birth, not from hypoglycemia, but probably because the Krebs cycle slows to approximately 10% of normal in the absence of cataplerosis. (3) Mice with a liver-specific knockout have an inability to remove oxaloacetate from the Krebs cycle, which leads to a fatty liver following a fast. (4) An adipose-specific knockout of Pck1 results in a fraction of the mice developing lipodystrophy due to lost glyceroneogenesis and a consequent decrease in fatty acid re-esterification. (5) Finally, disregulated over-expression of
PEPCK-C
in adipose tissue increases fatty acid re-esterification leading to obesity. These varied experimental phenotypes in mice have led us to postulate that abnormal production of
PEPCK
isozymes encoded by two
PEPCK
genes, PCK1 and PCK2, in humans could have similar consequences (Beale, E. G. et al. (2004). Trends in Endocrinology and Metabolism, 15, 129-135). The purpose of this review is to further explore these possibilities.
...
PMID:PCK1 and PCK2 as candidate diabetes and obesity genes. 1770 78
In order to study the role of the cytosolic form of phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) (
PEPCK-C
) in skeletal muscle,
PEPCK
-Cmus mice were created by introducing the cDNA for the enzyme, linked to the human alpha-skeletal actin gene promoter, into their germ line. Two founder lines generated by this procedure were bred together, creating a line of mice that have 9.0 units/g skeletal muscle of
PEPCK-C
, as compared to 0.080 units/g in muscle from control animals. The mice were more active than controls in their cages and could run for up to 5 km, at a speed of 20 m/min without stopping (control mice run for 0.2 km at the same speed). Male
PEPCK
-Cmus mice are extremely aggressive, as well as hyperactive. During strenuous exercise, they use fatty acids as a fuel more efficiently than do controls and produce far less lactate than do control animals, perhaps due to the greatly increased number of mitochondria in their skeletal muscle.
PEPCK
-Cmus mice also store up to five-times more triglyceride in their skeletal muscle, but have only marginal amounts of triglyceride in their adipose tissue depots, despite eating 60% more than controls. The concentration of leptin and insulin the blood of 8-12 months of
PEPCK
-Cmus mice is far lower than noted in the blood of control animals of the same age. These mice live longer than controls and the females remain reproductively active for as long as 35 months. The possible reasons for the profound alteration in activity and longevity caused the introduction of a simple metabolic enzyme into the skeletal muscle of the mice will be discussed.
...
PMID:Born to run; the story of the PEPCK-Cmus mouse. 1839 30
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