Comparative acute effects of leptin and insulin on gluconeogenesis and ketogenesis in perfused rat liver

The acute effects of physiological levels of leptin (10 ng ml(-1)) and insulin (20 microU ml(-1)) on hepatic gluconeogenesis and ketogenesis were compared. Leptin or insulin alone decreased (p<0.05) the activation of hepatic glucose, L-lactate and urea production from L-alanine. However, the hepatic glucose production was not modified if leptin was combined with insulin. These results indicated that both, i.e. leptin and insulin, could promote a non-additive reduction in the rate of catabolism of L-alanine. However, in contrast with insulin (p<0.05), leptin did not inhibit the activation of hepatic glucose production from pyruvate or glycerol. On the other hand, activation of hepatic production of acetoacetate and beta-hydroxybutyrate from octanoate was not affected by leptin or insulin. Thus, our data demonstrate that the acute effect of leptin on hepatic metabolism was partially similar to insulin (activation of glucose production from L-alanine and activation of acetoacetate or beta-hydroxybutyrate production from octanoate) and partially different from insulin (activation of glucose production from pyruvate or glycerol).     

Branched-chain keto acids inhibit mitochondrial pyruvate carrier and suppress gluconeogenesis in hepatocytes

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Effect of insulin-like growth factor-1 (IGF-1) on the gluconeogenesis in calf hepatocytes cultured in vitro

The major role of insulin-like growth factor-1 (IGF-1) in the liver is to mediate glucose uptake in hepatocytes to synthesize glycogen and maintain blood glucose homeostasis. In this study, to evaluate the role of IGF-1 on gluconeogenesis and nutrient metabolism in dairy cattle, pyruvate carboxylase (PC) and phosphoenolpyruvate carboxykinase (PEPCK) expression and enzyme activity were evaluated in primary cultures of bovine hepatocytes treated with different concentrations of IGF-1 by quantitative polymerase chain reaction and spectrophotometry, respectively. The results showed that expression of PC and PEPCK were significantly lower in bovine hepatocytes by IGF-1 treatment in test group compare to the control group (P < 0.01). As IGF-1 concentration increased, PC and PEPCK enzyme activity in bovine hepatocytes decreased. Evaluating PC and PEPCK mRNA levels and enzyme activity may thus be useful to monitor subclinical ketosis in dairy cows.     

Cell volume changes affect gluconeogenesis in the perfused liver of the catfish<Emphasis Type="Italic">Clarias batrachus</Emphasis>

In addition to lactate and pyruvate, some amino acids were found to serve as potential gluconeogenic substrates in the perfused liver ofClarias batrachus. Glutamate was found to be the most effective substrate, followed by lactate, pyruvate, serine, ornithine, proline, glutamine, glycine, and aspartate. Four gluconeogenic enzymes, namely phosphoenolpyruvate carboxykinase (PEPCK), pyruvate carboxylase (PC), fructose 1,6-bisphosphatase (FBPase) and glucose 6-phosphatase (G6Pase) could be detected mainly in liver and kidney, suggesting that the latter are the two major organs responsible for gluconeogenic activity in this fish. Hypo-osmotically induced cell swelling caused a significant decrease of gluconeogenic efflux accompanied with significant decrease of activities of PEPCK, FBPase and G6Pase enzymes in the perfused liver. Opposing effects were seen in response to hyperosmotically induced cell shrinkage. These changes were partly blocked in the presence of cycloheximide, suggesting that the aniso-osmotic regulations of gluconeogenesis possibly occurs through an inverse regulation of enzyme proteins and/or a regulatory protein synthesis in this catfish. In conclusion, gluconeogenesis appears to play a vital role inC. batrachus in maintaining glucose homeostasis, which is influenced by cell volume changes possibly for proper energy supply under osmotic stress.     

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).     

In vitro evaluation of leptin fragments activity on the ob receptor.

In an attempt to identify regions in the leptin molecule responsible for its bioactivity, we tested six related-leptin peptide fragments denoted: Ac-hLEP(23-47)-NH(2) (I), Ac-hLEP(48-71)-NH(2) (II), Ac-hLEP(72-88)-NH(2) (III), Ac-hLEP(92-115)-NH(2) (IV), Ac-[Ser(117)]-hLEP(116-140)-NH(2) (V), Ac-hLEP(141-164)-NH(2) (VI) and their correspondent disulfide bridged dimer forms. The activity of the fragments was evaluated in comparision to leptin, by their ability to interact with leptin receptor using a cytosensor microphysiometer. Our results indicated that the fragments IV and V and [D-Leu(4)]-OB(3) and its human sequence analog were recognized by leptin receptor present in HP-75 cells, in agreement with the results obtained by other workers, validating that this region of the molecule contain the functional epitope of the leptin molecule.     

间歇性低氧对肥胖小鼠瘦素及其受体表达的影响

为探讨适度低氧环境对体重的影响及其作用机制,明确瘦素在其中的作用,用高脂饮食建立小鼠肥胖模型并观察间歇性低氧的干预效果。健康昆明小鼠随机分为4组（每组20只）,正常对照组：喂正常食物,不进行间歇性低氧训练;低氧组：喂正常食物,并进行间歇性低氧训练;肥胖组：喂高脂、高糖食物,但不进行间歇性低氧训练;低氧＋肥胖组,喂高脂、高糖食物,并进行间歇性低氧训练。40d后,测量小鼠体重,用酶联免疫吸附法测定血清瘦素水平,免疫组织化学检测肝脏瘦素受体表达,苏丹Ⅲ染色检测肝脏脂肪细胞分布和密度。结果显示,与正常对照组相比,肥胖组小鼠平均体重和平均血清瘦素水平显著升高,肝脏分布大量脂肪细胞,提示高脂模型建立成功;经过间歇性低氧训练后,低氧组和低氧＋肥胖组小鼠的平均体重及肝脏脂肪细胞分布密度和范围分别较对照组和肥胖组低,而血清瘦素水平明显增高;低氧＋肥胖组小鼠肝脏瘦素受体的表达高于肥胖组。结果提示,适度的间歇性低氧可以通过提高血清瘦素水平和增强肝脏瘦素受体表达而使体重减轻,并有效防止肝细胞脂肪变。     

Evolution of pyruvate carboxylase and other biotin containing enzymes in developing rat liver and kidney

During contractions, when the rate of ATP hydrolysis exceeds that of ADP phosphorylation, inosine 5'-monophosphate (IMP) accumulates in skeletal muscle. If the cellular energy balance is not promptly restored, subsequent purine degradation to inosine via 5'-nucleotidase can occur, a process that is most robust in the slow-twitch red, as compared to fast-twitch, skeletal muscle. We measured the distribution of 5'-nucleotidase activity among membrane-bound and soluble fractions of fiber specific skeletal muscle sections and found most (80-90%) of the total 5'-nucleotidase activity to be membrane-bound. The 5' IMP nucleotidase activity present in the soluble fraction of muscle extracts differs among fiber types with slow-twitch red > fast-twitch red > mixed fibered > fast-twitch white. Experiments testing the substrate dependence of IMP and AMP dephosphorylation by the soluble fraction of muscle extracts revealed a lower Km toward IMP (approximately 0.7-1.5 mM) than AMP (1.9-2.8 mM). Among skeletal muscle fiber sections, the soluble 5'-nucleotidase activity present in slow-twitch red muscle extracts had the highest substrate affinity, the highest activity with IMP as substrate, and an estimated catalytic efficiency (Vmax/Km) that was > 3-fold higher than calculated for fast-twitch muscle extracts. This is likely due to the Mg2+ dependent cytosolic 5' IMP nucleotidase isoform, since immunoprecipitation experiments revealed 3-4 times more activity in slow-twitch red than in fast-twitch red or fast-twitch white fibers, respectively. These finding are consistent with the previously recognized in vivo pattern of nucleoside formation by muscle where the soleus demonstrated extensive inosine formation at a much lower IMP content than fast-twitch red or fast-twitch white muscle fiber sections.     

Effect of rate of substitution of processed, urea-treated whole-crop wheat for grass silage on the intake, milk production and diet digestibility in dairy cows and ruminal metabolism in vitro

The effect of rate of substitution of processed, urea-treated whole-crop wheat (pWCW) for grass silage on intake, performance and whole-tract digestibility was evaluated using 44 dairy cows. Cows received 10.5 kg of concentrates per day and one of the following forage mixtures (dry matter (DM) basis): grass silage alone (W-0); 0.75 grass silage, 0.25 pWCW (W-25); 0.5 grass silage, 0.5 pWCW (W-50) or 0.25 grass silage, 0.75 pWCW (W-75). Forage DM intake increased linearly with inclusion rate of pWCW from 9.7 kg DM per day in cows fed W-0 to 14.6 kg DM per day in W-75. By contrast, milk and protein yield (kg/day) were higher (P < 0.05) in cows receiving W-25 compared with W-0, but there was no effect (P>0.05) of treatment on fat yield (kg/day). From week 11 of the experiment onwards, body condition score increased with rate of inclusion of pWCW (P < 0.05). Whole-tract apparent digestibility of organic matter (OM) and fibre (kg/kg), decreased linearly with rate of inclusion of pWCW. Assuming a constant digestibility of starch in the other diet components, the apparent digestibility of starch in pWCW was 0.95 kg/kg and was not affected by rate of inclusion (P>0.05). Four continuous culture vessels were used to determine the effect of rate of inclusion of pWCW on ruminal metabolism in four periods, each of 14 d duration with sampling conducted on days 9 to 14. Vessel ammonia concentration increased linearly (P < 0.05) with rate of inclusion of pWCW whilst mean pH tended (P = 0.06) to decrease. The ratio of acetate to propionate increased from 2.5 in vessels receiving W-0 to 3.2 in those receiving W-75 (P < 0.001). There was no effect (P>0.05) of treatment on digestibility (g/g) of OM, fibre or starch or microbial protein flow (g/day). It is concluded that forage DM intake increased linearly with rate of inclusion of pWCW, but there was no further improvement in milk yield from inclusion rates above 0.25 of the forage DM, with body condition score increasing instead. Increasing the inclusion rate of pWCW resulted in a more ketogenic volatile fatty acid profile but did not affect the efficiency of microbial protein synthesis when determined in vitro.     

Hormonal modulation of hepatic plasma membrane lactate transport in cultured rat hepatocytes

Hormonal modulation of hepatic plasma membrane lactate transport was studied in primary cultures of isolated hepatocytes from fed rats to examine the mechanism for the known enhancement of lactate transport in starvation and diabetes. Total cellular lactate entry was increased by 14% in the presence of dexamethasone; this was accounted for by an approximately 40% increase in the carrier-mediated component of entry with no effect on diffusion. A trend of similar magnitude was evident with glucagon. The effects of dexamethasone and glucagon on lactate transport constitute an additional potential mechanism for enhancement of gluconeogenesis by these hormones.     

The impact of a leptin gene SNP on beef calf weaning weights

Prior research indicates that a SNP at position 305 of exon 2 in the leptin gene affects milk production in dairy cows. Dairy cows with at least one copy of the T allele have been shown to have higher milk production than CC cows. If that effect carries over to beef breeds, it is reasonable to expect that CT and TT beef cows will wean heavier calves than CC beef cows. We tested this hypothesis for a herd of mixed breed cows using anova. Results indicated that both crossbred CT and TT beef cows wean significantly heavier beef calves than CC crossbred beef cows. A lack of observations generally hinders detection of significance in other breeds. However, two other comparisons were found to be significant. The results suggest further investigation into the link between leptin genotype and calf weaning weights. Aside from interest to animal scientists, these results have the potential to alter mating and replacement selection decisions by cow-calf producers, given the importance of weaning weights on profitability.     

Effect of metformin on testicular expression and localization of leptin receptor and levels of leptin in the diabetic mice

Diabetes mellitus impairs testicular activity and leads to infertility. Leptin is one of the endogenous regulators of the male reproductive functions, but the role of leptin and its receptor (LEPR/Ob‐R) in the control of testosterone production and testicular proliferation has not been investigated so far, especially in the Type 1 diabetes mellitus (DM1). Metformin is an anti‐hyperglycemic drug which is beneficial for treating the both DM2 and DM1. The aim of this work was to study the possible role of leptin and Ob‐R in the regulation of steroidogenesis and proliferation in the testes of mice with streptozotocin‐induced DM1 (75 mg/kg/day, 4 days) and to estimate the restoring effect of metformin treatment (500 mg/kg, 2 weeks) on the diabetic testes. In the diabetic testes, the plasma and intratesticular leptin levels and plasma testosterone levels were reduced and completely restored by metformin treatment. Metformin also restored the expression of the steroidogenic transport protein steroidogenic acute regulatory protein reduced in DM1. In the diabetic testes, the expression of Ob‐R was downregulated and the immunolocalization of Ob‐R showed weak staining in the Leydig cells, the primary spermatocytes and the round spermatids. The germ cell proliferation was also reduced in DM1, as noticed with proliferating cell nuclear antigen (PCNA) expression. Metformin increased the Ob‐R expression and immunostaining in the different cell types and improved the PCNA expression. Thus, DM1 impairs the testicular steroidogenesis and proliferation by inhibiting the leptin signaling, causing a decrease in leptin levels and Ob‐R expression in the testes of diabetic mice, while metformin improves the leptin signaling and restores testosterone production and testicular proliferation.     

过量表达Bacillus subtilis磷酸烯醇式丙酮酸羧化激酶对大肠杆菌产琥珀酸的影响

在大肠杆菌厌氧混合酸发酵途径中,磷酸烯醇式丙酮酸羧化酶(PPC)和磷酸烯醇式丙酮酸羧化激酶(PCK)皆可催化由磷酸烯醇式丙酮酸(PEP)到草酰乙酸(OAA)的反应。鉴于经由PCK催化的反应伴有ATP的生成,理论上更有利于菌体生长和产酸,本研究以大肠杆菌W3110(△pfl,△ldh)为出发菌株,利用λ-Red同源重组系统构建了其ppc缺陷菌株并在此基础上过量表达了Bacillus subtilispck基因。初步的厌氧发酵实验表明:过量表达pck可在一定程度上恢复初始菌株厌氧代谢葡萄糖的能力。其中又以ppc缺陷株更为明显,其耗糖能力和产酸能力分别为对照菌株的4.2和15.3倍。     

Effect of lactation on gluconeogenesis and ketogenesis in ovine hepatocytes

1. Rates of glucose synthesis from radioactive precursors and ketogenesis were determined in hepatocytes from control and lactating sheep. 2. Gluconeogenesis from propionate was the same in both groups. Gluconeogenesis from lactate + pyruvate was three-fold higher in hepatocytes from lactating sheep. Palmitate stimulated gluconeogenesis from lactate + pyruvate in both groups. 3. Rates of ketogenesis from palmitate but not butyrate were slightly higher in hepatocytes from lactating sheep. No other differences in the metabolism of palmitate or butyrate were seen in the two groups. Exogenous carnitine stimulated ketogenesis from palmitate. Propionate inhibited ketogenesis from palmitate and butyrate. Lactate + pyruvate also inhibited ketogenesis slightly but stimulated oxidation and esterification. 4. It is concluded that the major changes in glucose and ketone production seen in the lactating ruminant are not the result of long-term changes within the hepatocyte but occur because of the changes in substrate supply to the liver and changes in intracellular concentrations of metabolites.     

Mycorrhiza formation on Norway spruce (Picea abies) roots affects the pathway of anaplerotic CO2 fixation

Activities of carboxylation enzymes were analyzed in the mycelium of the mycorrhizal fungus Amanita muscaria (L. ex Fr.) Hooker, in non-mycorrhizal short roots of Norway spruce ( Picea abies [L.] Karst.) and in myconhizas of these two partners. While pyruvale carboxylase (PC, EC 6.4.1.1) and phosphoenolpyruvate carboxykinase activities (PEPCK.EC 4.1.1.49) could be detected in the mycelium of A. muscaria , phosphoenolpyruvate carboxyknase (PEPC, EC 4.1.1.31) was only active in root tissue. In A. muscaria , PC activity was generally low (around 10 nmol mg^−tprotein min⁻) but PEPCK activity was above 250 nmol mg⁻¹ protein min⁻¹. Mycorrhizal development on short roots decreased PEPC activity by more than 75%, although dilution by the fungal biomass in mycorrhizas was only 35%. This reduction in activity was paralleled by a decreased content of PEPC protein. By means of micro-analytical methods it was shown that PEPC activity was lowest in the central zones of the mycorrhizas, Whereas PEPC activity was highest in the corresponding central sections in non-mycorrhizal short roots. ¹⁴CO₂ labelling, on the other hand, revealed that in vivo CO₂ fixation was higher in mycorrhizas compared to non-mycorrhizal short roots. It is concluded that fungal carboxylases (probably PEPCK) are important for anaplerotic CO₂ fixation during nitrogen assimilation in mycorrhizas of Norway spruce.     

Influence of tamoxifen on gluconeogenesis and glycolysis in the perfused rat liver

The actions of tamoxifen, a selective estrogen receptor modulator used in chemotherapy and chemo-prevention of breast cancer, on glycolysis and gluconeogenesis were investigated in the isolated perfused rat liver. Tamoxifen inhibited gluconeogenesis from both lactate and fructose at very low concentrations (e.g., 5 μM). The opposite, i.e., stimulation, was found for glycolysis from both endogenous glycogen and fructose. Oxygen uptake was unaffected, inhibited or stimulated, depending on the conditions. Stimulation occurred in both microsomes and mitochondria. Tamoxifen did not affect the most important key-enzymes of gluconeogenesis, namely, phosphoenolpyruvate carboxykinase, pyruvate carboxylase, fructose 1,6-bisphosphatase and glucose 6-phosphatase. Confirming previous observations, however, tamoxifen inhibited very strongly NADH- and succinate-oxidase of freeze–thawing disrupted mitochondria. Tamoxifen promoted the release of both lactate dehydrogenase (mainly cytosolic) and fumarase (mainly mitochondrial) into the perfusate. Tamoxifen (200 μM) clearly diminished the ATP content and increased the ADP content of livers in the presence of lactate with a diminution of the ATP/ADP ratio from 1.67 to 0.79. The main causes for gluconeogenesis inhibition are probably: (a) inhibition of energy metabolism; (b) deviation of intermediates (malate and glucose 6-phosphate) for the production of NADPH required in hydroxylation and demethylation reactions; (c) deviation of glucosyl units toward glucuronidation reactions; (d) secondary inhibitory action of nitric oxide, whose production is stimulated by tamoxifen; (e) impairment of the cellular structure, especially the membrane structure. Stimulation of glycolysis is probably a compensatory phenomenon for the diminished mitochondrial ATP production. The multiple actions of tamoxifen at relatively low concentrations can represent a continuous burden to the overall hepatic functions during long treatment periods.     

人Leptin和肥胖的研究进展

肥胖已经成为一种社会现象,其发病过程复杂,危害严重。近年来的研究表明,肥胖是一种由食欲和能量调节紊乱引起的疾病,与遗传、环境、膳食结构等多种因素有关,其中基因是主要的决定因素。最近人和小鼠的肥胖基因被相继克隆,发现它能在脂肪组织特异表达,其编码的蛋白Leptin可作用于下丘脑,产生抑制摄食、减轻肥胖、减少体重的作用。此外,它还对生殖系统、造血系统等有调节作用。