Control of gluconeogenesis by phosphoenolpyruvate carboxykinase in cotyledons ofCucurbita pepo L.

3-Mercaptopicolinic acid, a non-competitive inhibitor of phosphoenolpyruvate carboxykinase (EC 4.1.1.19) was used to study the control of gluconeogenesis by this enzyme in germinating marrow (Cucurbita pepo) cotyledons. In vitro, phosphoenolpyruvate carboxykinase was inhibited by 3-mercaptopicolinic acid, with aKi of 5.9 M. At 25°C the inhibitor caused an increase in the label incorporated from [2-¹⁴C]acetate into CO₂, and a decrease in the label incorporated into the insoluble and neutral fractions. Phosphoenolpyruvate carboxykinase had a flux control coefficient for gluconeogenesis (C _PEPCK ^J ) of between 0.7 and 1.0. 3-Mercaptopicolinic acid was a less effective inhibitor of phosphoenolpyruvate carboxykinase at lower temperatures (Ki = 8.6 M at 17°C, 13.3 M at 10°C) and had similar effects on the metabolism of [2-¹⁴C]acetate by marrow cotyledons when the temperature was reduced to 17°C and 10°C. The control coefficient for this enzyme did not change with temperature, indicating that phosphoenolpyruvate carboxykinase exerts a high degree of control over gluconeogenesis at all temperatures examined.Abbreviations PEP Phosphoenolpyruvate - PEPCK PEP carboxykinase The authors thank Dr. Ian Woodrow (University of Melbourne, Australia) for helpful discussions. This work was supported by a grant from the Science and Engineering Research Council, U.K. (GR/F 50978).     

5-Aminoimidazole-4-carboxamide riboside activates nitrate reductase in darkened spinach and pea leaves

Nitrate reductase (NR) activity is modulated in vivo by phosphorylation (inactivation)/dephosphorylation (activation) in response to light/dark signals. The dephosphorylation of phospho-NR in vitro, catalyzed by endogenous protein phosphatases, is known to be stimulated by 5'-AMP suggesting that this metabolite may be an important regulator of the activity of NR, e.g. under anoxia. To determine whether 5'-AMP might be a regulatory metabolite in vivo, excised spinach ( Spinacia oleracea ) and pea ( Pisum sativum ) leaves were provided 5-aminoimidazole-4-carboxamide riboside (AICAR) via the transpiration stream, and the apparent phosphorylation status of NR was assessed by assay of activity in the presence of free Mg²⁺. NR was activated in darkened spinach leaves in a time- and concentration-dependent manner when leaves were fed AICAR; there was also an accumulation of nitrite in treated leaves in the dark. The activation by AICAR could be blocked by several type 2A protein phosphatase inhibitors (microcystin-LR, okadaic acid and cantharidin), and was not the result of a reduction of kinase activity by lack of ATP because cellular adenylates were unaffected. It was confirmed that AICAR-P, but not AICAR, mimicked 5'-AMP in the activation of phospho-NR in vitro. Our results are consistent with the notion that AICAR is converted to the monophosphorylated derivative, which accumulates in cells and acts as a structural analog of 5'-AMP. Our results suggest that a rise in cytosolic [5'-AMP] may be sufficient to activate NR in vivo. AICAR should be a useful compound for identifying AMP-regulated processes in plant systems.     

Effect of xiphidiocercarial infection on the bioenergetic parameters of Lymnaea luteola

The levels of adenine compounds in the gastropod Lymnaea luteola have been determined through ion-exchange chromatography. In snails infected with the larvae of Prosthogonimus sp., the concentration decreased. As a result, the different bioenergetic parameters like ATP/ADP, ATP/AMP, and “energy charge” were altered.     

Lipoic acid and diabetes II: Mode of action of lipoic acid

Intraperitoneal administration of lipoic acid (10 mg/100 g) does not effect changes in serum insulin levels in normal and alloxan diabetic rats, while normalising increased serum pyruvate, and impaired liver pyruvic dehydrogenase characteristic of the diabetic state. Dihydrolipoic acid has been shown to participate in activation of fatty acids with equal facility as coenzyme A. Fatty acyl dihydrolipoic acid however is sparsely thiolyzed to yield acetyl dihydrolipoic acid. Also acetyl dihydrolipoic acid does not activate pyruvate carboxylase unlike acetyl coenzyme A. The reduced thiolysis of Β-keto fatty acyl dihydrolipoic acid esters and the lack of activation of pyruvic carboxylase by acetyl dihydrolipoic acid could account for the antiketotic and antigluconeogenic effects of lipoic acid     

Hypothalamic POMC expression is required for peripheral insulin action on hepatic gluconeogenesis through regulating STAT3 in sepsis rats

Liver injury and dysregulated glucose homoeostasis are common manifestations during sepsis. Although plenty of studies reported insulin could protect against multiple organ injuries caused by critical infections among patients, little was known about the precise mechanism. We investigated whether liver inflammatory pathway and central neuropeptides were involved in the process. In sepsis rats, hepatic IKK/NF‐κB pathway and STAT3 were strongly activated, along with reduced body weight, blood glucose and suppressed hepatic gluconeogenesis (GNG). Peripheral insulin administration efficiently attenuated liver dysfunction and glucose metabolic disorders by suppressing hypothalamic anorexigenic neuropeptide proopiomelanocortin (POMC) expression, hepatic NF‐κB pathway and STAT3 phosphorylation. Furthermore, knockdown of hypothalamic POMC significantly diminished protective effect of insulin on hepatic GNG and insulin‐induced STAT3 inactivation, but not inflammation or IKK/NF‐κB pathway. These results suggest that hepatic IKK/NF‐κB pathway mediates the anti‐inflammatory effect of insulin in septic rats, and peripheral insulin treatment may improve hepatic GNG by inhibiting STAT3 phosphorylation dependent on hypothalamic POMC expression.     

Mitochondrial pyruvate carrier—A possible link between gluconeogenesis and ketogenesis in the liver

Effects of various ketogenic substrates on gluconeogenesis from lactate or alanine were compared. The results suggest that, in intact liver cells, cytoplasmic pyruvate is transported into mitochondria in exchange for intramitochondrially generated acetoacetate. An interrelationship between gluconeogenesis and ketogenesis may thus exist in the liver at the level of mitochondrial pyruvate carrier.     

Effect of plumbagin on some glucose metabolising enzymes studied in rats in experimental hepatoma

Plumbagin (5-hydroxy-2-methyl-1, 4-naphthoquinone) isolated from Plumbago zeylanica Linn, when administered orally, at a dosage of 4 mg/kg body weight induces tumour regression in 3-methyl-4-dimethyl aminoazobenzene (3Me-DAB) induced hepatoma in Wistar male rats. The purpose of this investigation was to identify the changes in the rate of glycolysis and gluconeogenesis in tumour-bearing rats and the effects of treatment with Plumbagin. The levels of certain glycolytic enzymes, namely, hexokinase; phosphoglucoisomerase; and aldolase levels increased (p<0.001) in hepatoma bearing rats, whereas they decreased in Plumbagin administered rats to near normal levels. Certain gluconeogenic enzymes, namely, glucose-6-phosphatase and fructose-1,6-diphosphatase decreased (p<0.001) in tumour hosts, whereas Plumbagin administration increased the gluconeogenic enzyme levels in the treated animals. These investigations indicate the molecular basis of the different biological behaviour of 3MeDAB induced hepatoma and the anticarcinogenic property of Plumbagin against hepatoma studied in rats.     

转录激活因子6：潜在的抗2 型糖尿病药物新靶点

真核细胞中的内质网是蛋白质合成、翻译和转运的场所,当内质网稳态被打破,出现蛋白质折叠障碍或错误折叠,并导致蛋白质过度积累时,便会引发内质网应激反应,即未折叠蛋白反应。大量的研究表明,内质网应激与2 型糖尿病的病理特征有一定的关系,而转录激活因子6 通路作为未折叠蛋白反应中3 条信号通路之一,调控着蛋白质的重折叠过程,对缓解内质网应激以及在糖脂代谢和胰岛素敏感性方面起着重要作用。简介内质网应激反应及相关信号通路和转录激活因子6,着重综述转录激活因子6 在肝脏糖脂代谢和胰岛素抵抗中的作用及相应机制,探讨其成为抗2 型糖尿病药物新靶点的可能性,为抗2 型糖尿病药物的研发提供新思路。